Welcome to Sherpa, Enrico Bothmann on EnoBook.local. Initialization of framework underway. The local time is Wed Aug 9 10:31:12 2017. Run_Parameter::Init(): Setting memory limit to 1.90234 GB. Random::SetSeed(): Seed set to 1234 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 2.3.0 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- SVN branch trunk/SHERPA, revision 30718. Beam_Spectra_Handler : type = Monochromatic*Monochromatic for P+ ((4000,0,0,4000)) and P+ ((4000,0,0,-4000)) PDF set 'NNPDF30NNLO' loaded for beam 1 (P+). PDF set 'NNPDF30NNLO' loaded for beam 2 (P+). Initialized the ISR. Standard_Model::FixEWParameters() { Input scheme: 2 alpha(m_Z) scheme, input: 1/\alphaQED(m_Z), m_W, m_Z, m_h, widths Ren. scheme: 2 alpha(m_Z) Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75492 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 128.802 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc MASS[] WIDTH[] STABLE[] MASSIVE[] ACTIVE[] YUKAWA[] d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.8 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 nue 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 numu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 nutau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} nu 91 {nue,nueb,numu,numub,nutau,nutaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,nue,nueb,numu,numub,nutau,nutaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Hadron_Init::Init(): Initializing kf table for hadrons. Initialized the Fragmentation_Handler. Initialized the Soft_Collision_Handler. Initialized the Shower_Handler. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (c,cb,b,bb,e-,e+,mu-,mu+) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (c,cb,b,bb,e-,e+,mu-,mu+) Matrix_Element_Handler::BuildProcesses(): Looking for processes .. done ( 24 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 24 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Primordial_KPerp::Primordial_KPerp() { scheme = 0 beam 1: P+, mean = 1.1, sigma = 0.914775 beam 2: P+, mean = 1.1, sigma = 0.914775 } Initialized the Beam_Remnant_Handler. Hadron_Decay_Map::Read: Initializing HadronDecays.dat. This may take some time. Initialized the Hadron_Decay_Handler, Decay model = Hadrons ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amisic: (c,cb,b,bb,e-,e+,mu-,mu+) Simple_Chain::InitializeProcessList(): Init processes ................................................................................................ done. Grid_Creator::ReadInGrid(): Reading grid ................................................................................................ done. Simple_Chain::CalculateTotal(): Result is { \sigma_{hard} = 34.9898 mb at PT_{min} = 4.16597 GeV } Profile_Function_Base::CalculateOMean(2.23718): Results are { k = 6.67657 <\tilde{O}> = 0.335079 } Initialized the Multiple_Interactions_Handler (MI_Handler). Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory : Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 2016.65 pb +- ( 28.3184 pb = 1.40423 % )  exp. eff: 3.1155 % reduce max for 2_2__j__j__l__l to 0.758461 ( eps = 0.001 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Weighted Perturbative : Signal_Processes Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:Photons Perturbative : Multiple_Interactions:Amisic Perturbative : Minimum_Bias:Off Hadronization : Beam_Remnants Hadronization : Hadronization:Ahadic Hadronization : Hadron_Decays --------------------------------------------------------- Event_Handler::GenerateEvent(0) { Event_Handler::GenerateStandardPerturbativeEvent(0) { Event_Handler::IterateEventPhases(weight=1) { trying phase: Signal_ProcessesSingle_Process::Trigger() { Combined_Selector::Trigger() { Mass_Selector IMass_Selector::Trigger(1) { } Mass_Selector IMass_Selector::Trigger(0) { } Jetfinder } } Single_Process::Differential(2_2__c__cb__mu-__mu+, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__u__ub__e-__e+) { Cluster_Algorithm::PreCluster() { } METS_Scale_Setter::CalculateStrict(2_2__u__ub__e-__e+ from 2_2__c__cb__mu-__mu+, mcmode = 0) { no ampl, ask generator Cluster_Algorithm::Cluster(mode = 0) { Cluster_Algorithm::Cluster(step = 2, order = 1 / 0) { Cluster_Algorithm::ClusterStep(step = 2) { Cluster_Algorithm::CalculateMeasures() { p_ampl = (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 8000, \mu = 0 k_T = 0, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } (3)&(2): e+,e- -> P (0,1) { Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 8000, \mu = 0 k_T = 0, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(2)mu-,(3)mu+->P;(0)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(0)} = (-2345.91,-0,-0,-2345.91) (0,3) cb Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(3)mu+,(2)mu-->P;(0)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(0)} = (-2345.91,-0,-0,-2345.91) (0,3) cb Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(2)mu-,(3)mu+->P;(1)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(1)} = (-2577.38,-0,-0,2577.38) (3,0) c Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(3)mu+,(2)mu-->P;(1)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(1)} = (-2577.38,-0,-0,2577.38) (3,0) c } (3)&(2): e+,e- -> Z (0,1) { Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(2)mu-,(3)mu+->Z;(0)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(0)} = (-2345.91,-0,-0,-2345.91) (0,3) cb Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(3)mu+,(2)mu-->Z;(0)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(0)} = (-2345.91,-0,-0,-2345.91) (0,3) cb Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(2)mu-,(3)mu+->Z;(1)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(1)} = (-2577.38,-0,-0,2577.38) (3,0) c Default_Core_Scale::Calculate() { (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|0] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|0] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|0] } DY like \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 } calc Q_{(3)mu+,(2)mu-->Z;(1)} -> CP{kt=4917.84,op=4917.84,x=0,mu=4917.84,k=-1,m=0} p_{(3)} = (2490.1,2236.58,823.718,-720.982) (0,0) mu+ p_{(2)} = (2433.19,-2236.58,-823.718,489.515) (0,0) mu- p_{(1)} = (-2577.38,-0,-0,2577.38) (3,0) c } } combine (3)&(2) -> (2,3) <-> (0) } set last k_T = 4917.84 for (0,1,2,3) from (2,3) check ordering: (0,1,2,3): 4917.84 vs. 0 Cluster_Algorithm::Cluster(nmin = 2) { (0x7ffbb5ccb300): 2 -> 1 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 18446744073709551615, K = 0 oew = 1, oqcd = 0, nlo = 0, new = (none), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [1|0] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [1|0] (2,3) Z (4923.29,0,0,-231.467) 4917.84 (0,0) [1|0] <-> (0) } } } Final configuration: (0x7ffbb4db1280): 2 -> 2 { \mu_r = 8000, \mu_f = 8000, \mu_q = 4917.84, \mu = 4917.84 k_T = 4917.84, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2345.91,-0,-0,-2345.91) 9.23817e-05 (0,3) [0|2] (1) c (-2577.38,-0,-0,2577.38) -0 (3,0) [0|2] (2) mu- (2433.19,-2236.58,-823.718,489.515) 4.94441e-05 (0,0) [0|2] (3) mu+ (2490.1,2236.58,823.718,-720.982) 4.94441e-05 (0,0) [0|2] } } METS_Scale_Setter::SetScales(kt=2.41852e+07, #legs=4, mode=0) { Setting scales { } -> as = 1 -> 4917.84 Core / QCD scale = 4917.84 / 4917.84 METS_Scale_Setter::SetScales(): Set { \mu_f = 4917.84 \mu_r = 4917.84 \mu_q = 4917.84 \mu_3 = 4917.84 \mu_4 = 4917.84 \mu_5 = 4917.84 } <- 2_2__c__cb__mu-__mu+ } } Coupling_Data::Calculate(0x7ffbb49d7d40): scl = 4917.84 -> 'Alpha_QCD'{fac=0.646154,cpl=0.118} \mu_F = 4917.84 \mu_R = 4917.84 } Single_Process::UpdateKPTerms() { } PDF(fla=c, xa=0.586478, ta=2.41852e+07) * PDF(flb=cb, xb=0.644344, tb=2.41852e+07) -> 1.14518e-09 Single_Process::AddISR(2_2__c__cb__mu-__mu+, \mu_F = 4917.84, #ampls=1) { Skip. Scales equal: t_i=2.41852e+07, t_{i+1}=2.41852e+07 } type=METS, B=5.932e-11, VI=0, KP=0, K=1 muR2=2.41852e+07, muF2=2.41852e+07, oqcd=0, oew=2, fl1=4, fl2=-4, x1=0.586478, x2=0.644344, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.14518e-09, flux=2.06738e-08, counter term=0, steps: (2.41852e+07;4,0.586478|-4,0.644344) (2.41852e+07;4,0.586478|-4,0.644344) } 2_2__c__cb__mu-__mu+ ME = 6.79319410585865e-20 , PS = 0.167262163002598 -> 1.13624433984242e-20 p_lab[0]=Vec4D(2345.91030705169,0,0,2345.91030705169); p_lab[1]=Vec4D(2577.37711725729,0,0,-2577.37711725729); p_lab[2]=Vec4D(2433.18816289288,-2236.57509260015,-823.718308371336,489.514698100615); p_lab[3]=Vec4D(2490.0992614161,2236.57509260015,823.718308371336,-720.981508306215); ========================================================== Signal_Processes::FillBlob(1) { } -> Success (1 blobs) Blob List with 1 elements { Blob [6]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 1 mu- 3 ( 1 -> ) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 1 mu+ 4 ( 1 -> ) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) } trying phase: Signal_Processes -> Nothing (1 blobs) trying phase: Hard_Decays -> Nothing (1 blobs) trying phase: Jet_Evolution:CSSSingle_Process::Cluster(): Found 1 amplitude(s) ... select 1st. ME_Generator_Base::ShiftMasses(Comix) { Before shift: (0x7ffbb5ccb300): 2 -> 2 { \mu_r = 4918, \mu_f = 4918, \mu_q = 4918, \mu = 4918 k_T = 4918, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2346,-0,-0,-2346) 9.238e-05 (0,3) [0|2] (1) c (-2577,-0,-0,2577) -0 (3,0) [0|2] (2) mu- (2433,-2237,-823.7,489.5) 4.944e-05 (0,0) [0|2] (3) mu+ (2490,2237,823.7,-721) 4.944e-05 (0,0) [0|2] } After shift: (0x7ffbb5ccb300): 2 -> 2 { \mu_r = 4918, \mu_f = 4918, \mu_q = 4918, \mu = 4918 k_T = 4918, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2346,0,0,-2346) 1.42 (0,3) [0|2] (1) c (-2577,0,0,2577) 1.42 (3,0) [0|2] (2) mu- (2433,-2237,-823.7,489.5) 0.105 (0,0) [0|2] (3) mu+ (2490,2237,823.7,-721) 0.105 (0,0) [0|2] } } Cluster_Definitions_Base::ReCluster(0x7ffbb4970c20) { (0x7ffbb5ccb300): 2 -> 2 { \mu_r = 4918, \mu_f = 4918, \mu_q = 4918, \mu = 4918 k_T = 4918, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2346,0,0,-2346) 1.42 (0,3) [0|2] (1) c (-2577,0,0,2577) 1.42 (3,0) [0|2] (2) mu- (2433,-2237,-823.7,489.5) 0.105 (0,0) [0|2] (3) mu+ (2490,2237,823.7,-721) 0.105 (0,0) [0|2] } } CS_Shower::PrepareStandardShower() { Subprocess_Info::FSSymmetryFactor(): { 1 mu- -> 1 1 mu+ -> 1 } -> 1 Subprocess_Info::ISSymmetryFactor(): { c -> 2*3 cb -> 2*3 } -> 36 XS_ee_ffbar::XS_ee_ffbar:45("now entered EXTRAXS::XS_ee_ffbar ...") k_{T,min} / k_{T,max} = { (0) -> 4918 / 4918 (1) -> 4918 / 4918 (2) -> 4918 / 4918 (3) -> 4918 / 4918 } (0x7ffbb5ccb300): 2 -> 2 { \mu_r = 4918, \mu_f = 4918, \mu_q = 4918, \mu = 4918 k_T = 4918, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2346,0,0,-2346) 1.42 (0,500) [0|2] (1) c (-2577,0,0,2577) 1.42 (500,0) [0|2] (2) mu- (2433,-2237,-823.7,489.5) 0.105 (0,0) [0|2] (3) mu+ (2490,2237,823.7,-721) 0.105 (0,0) [0|2] } Singlet lists: Singlet parton list from CS_Shower : 0x7ffbb5ccb540, jf = 0x7ffbb48321b0 Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2346,-0,-0,2346) 1.42 1.42 (0,500)[0,500] (Initial state parton) Colour partners (0x0,0x7ffbb5c704f0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: cb : (2577,-0,-0,-2577) 1.42 1.42 (500,0)[500,0] (Initial state parton) Colour partners (0x7ffbb5cb9580,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d97730 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(2)]: mu- : (2433,-2237,-823.7,489.5) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d87cc0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(3)]: mu+ : (2490,2237,823.7,-721) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 mom sum (-1.901e-10,0,0,8.981e-12), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- } Jet_Evolution::AttachShowers(): Setting scale for MI { (0x7ffbb5ccb300): 2 -> 2 { \mu_r = 4918, \mu_f = 4918, \mu_q = 4918, \mu = 4918 k_T = 4918, z = 0, phi = 0, kin = 0, K = 0 oew = 2, oqcd = 0, nlo = 0, new = (3), ncl = 0, flag = 0 (0) cb (-2346,0,0,-2346) 1.42 (0,500) [0|2] (1) c (-2577,0,0,2577) 1.42 (500,0) [0|2] (2) mu- (2433,-2237,-823.7,489.5) 0.105 (0,0) [0|2] (3) mu+ (2490,2237,823.7,-721) 0.105 (0,0) [0|2] } } -> p_T = 4918 Jet_Evolution::DefineInitialConditions(): { } before shower step Singlet parton list from CS_Shower : 0x7ffbb5ccb540, jf = 0x7ffbb48321b0 Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2346,-0,-0,2346) 1.42 1.42 (0,500)[0,500] (Initial state parton) Colour partners (0x0,0x7ffbb5c704f0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: cb : (2577,-0,-0,-2577) 1.42 1.42 (500,0)[500,0] (Initial state parton) Colour partners (0x7ffbb5cb9580,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d97730 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(2)]: mu- : (2433,-2237,-823.7,489.5) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d87cc0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(3)]: mu+ : (2490,2237,823.7,-721) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 1 mom sum (-1.901e-10,0,0,8.981e-12), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- CF_QCD::Coupling(pol=0) { t=1.62e+06, \mu_R^2=1.62e+06 as(t)=0.0864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.315e+06, \mu_R^2=1.315e+06 as(t)=0.0873 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.006e+06, \mu_R^2=1.006e+06 as(t)=0.08848 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.786e+05, \mu_R^2=9.786e+05 as(t)=0.0886 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.712e+05, \mu_R^2=9.712e+05 as(t)=0.08864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.285e+05, \mu_R^2=6.285e+05 as(t)=0.09063 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.567e+05, \mu_R^2=5.567e+05 as(t)=0.09121 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.839e+05, \mu_R^2=4.839e+05 as(t)=0.09188 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.923e+05, \mu_R^2=3.923e+05 as(t)=0.0929 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.337e+05, \mu_R^2=2.337e+05 as(t)=0.09553 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.887e+05, \mu_R^2=1.887e+05 as(t)=0.09667 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.851e+05, \mu_R^2=1.851e+05 as(t)=0.09677 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.009e+04, \mu_R^2=6.009e+04 as(t)=0.1032 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.633e+04, \mu_R^2=5.633e+04 as(t)=0.1036 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.467e+04, \mu_R^2=5.467e+04 as(t)=0.1038 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.085e+04, \mu_R^2=3.085e+04 as(t)=0.1074 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.976e+04, \mu_R^2=2.976e+04 as(t)=0.1077 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.693e+04, \mu_R^2=2.693e+04 as(t)=0.1084 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.652e+04, \mu_R^2=2.652e+04 as(t)=0.1085 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.439e+04, \mu_R^2=2.439e+04 as(t)=0.1091 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.305e+04, \mu_R^2=2.305e+04 as(t)=0.1096 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.786e+04, \mu_R^2=1.786e+04 as(t)=0.1116 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.391e+04, \mu_R^2=1.391e+04 as(t)=0.1136 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.292e+04, \mu_R^2=1.292e+04 as(t)=0.1142 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.219e+04, \mu_R^2=1.219e+04 as(t)=0.1147 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.14e+04, \mu_R^2=1.14e+04 as(t)=0.1153 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5861, \mu_R^2=5861 as(t)=0.1212 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4807, \mu_R^2=4807 as(t)=0.1231 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3774, \mu_R^2=3774 as(t)=0.1255 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2882, \mu_R^2=2882 as(t)=0.1283 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2851, \mu_R^2=2851 as(t)=0.1284 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2848, \mu_R^2=2848 as(t)=0.1284 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2206, \mu_R^2=2206 as(t)=0.1312 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2094, \mu_R^2=2094 as(t)=0.1318 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2015, \mu_R^2=2015 as(t)=0.1322 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.082e+06, \mu_R^2=1.082e+06 as(t)=0.08816 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.077e+06, \mu_R^2=1.077e+06 as(t)=0.08818 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.331e+05, \mu_R^2=9.331e+05 as(t)=0.08882 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.93e+05, \mu_R^2=7.93e+05 as(t)=0.08956 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.429e+05, \mu_R^2=7.429e+05 as(t)=0.08986 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.842e+05, \mu_R^2=6.842e+05 as(t)=0.09024 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.458e+05, \mu_R^2=4.458e+05 as(t)=0.09228 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.648e+05, \mu_R^2=3.648e+05 as(t)=0.09326 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.56e+05, \mu_R^2=3.56e+05 as(t)=0.09339 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.412e+05, \mu_R^2=3.412e+05 as(t)=0.0936 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.389e+05, \mu_R^2=3.389e+05 as(t)=0.09363 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.405e+05, \mu_R^2=2.405e+05 as(t)=0.09538 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.295e+05, \mu_R^2=2.295e+05 as(t)=0.09563 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.004e+05, \mu_R^2=2.004e+05 as(t)=0.09635 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.678e+05, \mu_R^2=1.678e+05 as(t)=0.0973 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.554e+05, \mu_R^2=1.554e+05 as(t)=0.09772 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.429e+04, \mu_R^2=7.429e+04 as(t)=0.1019 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.058e+04, \mu_R^2=5.058e+04 as(t)=0.1043 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.977e+04, \mu_R^2=4.977e+04 as(t)=0.1044 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.999e+04, \mu_R^2=2.999e+04 as(t)=0.1076 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.043e+04, \mu_R^2=2.043e+04 as(t)=0.1105 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.945e+04, \mu_R^2=1.945e+04 as(t)=0.1109 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.466e+04, \mu_R^2=1.466e+04 as(t)=0.1132 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.429e+04, \mu_R^2=1.429e+04 as(t)=0.1134 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.23e+04, \mu_R^2=1.23e+04 as(t)=0.1146 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.191e+04, \mu_R^2=1.191e+04 as(t)=0.1149 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.15e+04, \mu_R^2=1.15e+04 as(t)=0.1152 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.077e+04, \mu_R^2=1.077e+04 as(t)=0.1157 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8294, \mu_R^2=8294 as(t)=0.118 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4224, \mu_R^2=4224 as(t)=0.1244 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3406, \mu_R^2=3406 as(t)=0.1265 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3060, \mu_R^2=3060 as(t)=0.1277 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2894, \mu_R^2=2894 as(t)=0.1282 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2572, \mu_R^2=2572 as(t)=0.1295 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2062, \mu_R^2=2062 as(t)=0.1319 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1685, \mu_R^2=1685 as(t)=0.1342 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1265, \mu_R^2=1265 as(t)=0.1377 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1224, \mu_R^2=1224 as(t)=0.1381 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1059, \mu_R^2=1059 as(t)=0.1399 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=950.8, \mu_R^2=950.8 as(t)=0.1412 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=835.5, \mu_R^2=835.5 as(t)=0.1429 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=733.4, \mu_R^2=733.4 as(t)=0.1447 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=587.2, \mu_R^2=587.2 as(t)=0.1477 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=417, \mu_R^2=417 as(t)=0.1527 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=409.5, \mu_R^2=409.5 as(t)=0.153 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=403, \mu_R^2=403 as(t)=0.1533 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=318, \mu_R^2=318 as(t)=0.157 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=315, \mu_R^2=315 as(t)=0.1571 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=309.8, \mu_R^2=309.8 as(t)=0.1574 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=198, \mu_R^2=198 as(t)=0.1649 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=157.4, \mu_R^2=157.4 as(t)=0.1691 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=137.9, \mu_R^2=137.9 as(t)=0.1716 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=137.7, \mu_R^2=137.7 as(t)=0.1717 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=122.9, \mu_R^2=122.9 as(t)=0.1739 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=92.8, \mu_R^2=92.8 as(t)=0.1796 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=90.53, \mu_R^2=90.53 as(t)=0.1802 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=85.12, \mu_R^2=85.12 as(t)=0.1815 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=80.22, \mu_R^2=80.22 as(t)=0.1828 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=64.82, \mu_R^2=64.82 as(t)=0.1876 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=45.91, \mu_R^2=45.91 as(t)=0.1959 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=44.05, \mu_R^2=44.05 as(t)=0.197 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.03, \mu_R^2=41.03 as(t)=0.1988 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=40.18, \mu_R^2=40.18 as(t)=0.1994 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.42, \mu_R^2=39.42 as(t)=0.1999 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=30.73, \mu_R^2=30.73 as(t)=0.2067 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=28.27, \mu_R^2=28.27 as(t)=0.209 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.22, \mu_R^2=25.22 as(t)=0.2124 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=23.03, \mu_R^2=23.03 as(t)=0.2149 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.11, \mu_R^2=22.11 as(t)=0.2163 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.85, \mu_R^2=19.85 as(t)=0.2201 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.62, \mu_R^2=19.62 as(t)=0.2205 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.26, \mu_R^2=16.26 as(t)=0.2276 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.01, \mu_R^2=16.01 as(t)=0.2281 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.38, \mu_R^2=14.38 as(t)=0.2324 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.97, \mu_R^2=13.97 as(t)=0.2336 } CF_QCD::Coupling(pol=1) { } Emission c -> c G at kt = 99.61( 0 .. 4918 ), z = 0.958, y = 0.009368 for Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2346,-0,-0,2346) 1.42 1.42 (0,500)[0,500] (Initial state parton) Colour partners (0x0,0x7ffbb5c704f0) k_T start : 4918 k_T test : 99.61 k_T veto : 20(4918) x_B : 0.5865 Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: cb : (2577,-0,-0,-2577) 1.42 1.42 (500,0)[500,0] (Initial state parton) Colour partners (0x7ffbb5cb9580,0x0) k_T start : 4918 k_T test : 0 k_T veto : 20(4918) x_B : 0.6443 Highest Multi -> Disable jet veto Shower::MakeKinematics(0) { Set fixed n_perp Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 1 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=1983, \mu_R^2=1983 as(t)=0.1324 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1930, \mu_R^2=1930 as(t)=0.1327 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1912, \mu_R^2=1912 as(t)=0.1328 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1905, \mu_R^2=1905 as(t)=0.1328 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1830, \mu_R^2=1830 as(t)=0.1333 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1654, \mu_R^2=1654 as(t)=0.1345 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1509, \mu_R^2=1509 as(t)=0.1355 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1430, \mu_R^2=1430 as(t)=0.1362 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1073, \mu_R^2=1073 as(t)=0.1397 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1040, \mu_R^2=1040 as(t)=0.1401 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=838.3, \mu_R^2=838.3 as(t)=0.1429 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=832.6, \mu_R^2=832.6 as(t)=0.143 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=581.4, \mu_R^2=581.4 as(t)=0.1479 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=547.7, \mu_R^2=547.7 as(t)=0.1487 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=534.5, \mu_R^2=534.5 as(t)=0.1491 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=520.3, \mu_R^2=520.3 as(t)=0.1495 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=481.5, \mu_R^2=481.5 as(t)=0.1506 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=476.7, \mu_R^2=476.7 as(t)=0.1507 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=471.7, \mu_R^2=471.7 as(t)=0.1509 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=446.4, \mu_R^2=446.4 as(t)=0.1517 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=430.1, \mu_R^2=430.1 as(t)=0.1523 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=416.7, \mu_R^2=416.7 as(t)=0.1528 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=409.2, \mu_R^2=409.2 as(t)=0.153 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=393.7, \mu_R^2=393.7 as(t)=0.1536 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=317.7, \mu_R^2=317.7 as(t)=0.157 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=302.4, \mu_R^2=302.4 as(t)=0.1578 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=295.1, \mu_R^2=295.1 as(t)=0.1582 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=267.6, \mu_R^2=267.6 as(t)=0.1598 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=258.5, \mu_R^2=258.5 as(t)=0.1604 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=201.5, \mu_R^2=201.5 as(t)=0.1646 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=170, \mu_R^2=170 as(t)=0.1677 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=160.3, \mu_R^2=160.3 as(t)=0.1688 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=140.2, \mu_R^2=140.2 as(t)=0.1713 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=134.5, \mu_R^2=134.5 as(t)=0.1721 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=132.8, \mu_R^2=132.8 as(t)=0.1724 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=121.3, \mu_R^2=121.3 as(t)=0.1741 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=115.9, \mu_R^2=115.9 as(t)=0.1751 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=84.14, \mu_R^2=84.14 as(t)=0.1817 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=70.6, \mu_R^2=70.6 as(t)=0.1856 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=66.28, \mu_R^2=66.28 as(t)=0.1871 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=63.93, \mu_R^2=63.93 as(t)=0.1879 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=57.74, \mu_R^2=57.74 as(t)=0.1903 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=57.14, \mu_R^2=57.14 as(t)=0.1905 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=48.16, \mu_R^2=48.16 as(t)=0.1947 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3954, \mu_R^2=3954 as(t)=0.125 } CF_QCD::Coupling(pol=0) { t=3892, \mu_R^2=3892 as(t)=0.1252 } CF_QCD::Coupling(pol=0) { t=3131, \mu_R^2=3131 as(t)=0.1274 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3086, \mu_R^2=3086 as(t)=0.1276 } CF_QCD::Coupling(pol=0) { t=2876, \mu_R^2=2876 as(t)=0.1283 } CF_QCD::Coupling(pol=0) { t=2767, \mu_R^2=2767 as(t)=0.1287 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2507, \mu_R^2=2507 as(t)=0.1298 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2489, \mu_R^2=2489 as(t)=0.1299 } CF_QCD::Coupling(pol=0) { t=2448, \mu_R^2=2448 as(t)=0.13 } CF_QCD::Coupling(pol=0) { t=2224, \mu_R^2=2224 as(t)=0.1311 } CF_QCD::Coupling(pol=0) { t=2158, \mu_R^2=2158 as(t)=0.1314 } CF_QCD::Coupling(pol=0) { t=2123, \mu_R^2=2123 as(t)=0.1316 } CF_QCD::Coupling(pol=0) { t=2112, \mu_R^2=2112 as(t)=0.1317 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2040, \mu_R^2=2040 as(t)=0.1321 } CF_QCD::Coupling(pol=0) { t=1966, \mu_R^2=1966 as(t)=0.1325 } CF_QCD::Coupling(pol=0) { t=1933, \mu_R^2=1933 as(t)=0.1327 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1802, \mu_R^2=1802 as(t)=0.1335 } CF_QCD::Coupling(pol=0) { t=1630, \mu_R^2=1630 as(t)=0.1346 } CF_QCD::Coupling(pol=0) { t=1548, \mu_R^2=1548 as(t)=0.1352 } CF_QCD::Coupling(pol=0) { t=1517, \mu_R^2=1517 as(t)=0.1355 } CF_QCD::Coupling(pol=0) { t=1429, \mu_R^2=1429 as(t)=0.1362 } CF_QCD::Coupling(pol=0) { t=1411, \mu_R^2=1411 as(t)=0.1363 } CF_QCD::Coupling(pol=0) { t=1304, \mu_R^2=1304 as(t)=0.1373 } CF_QCD::Coupling(pol=0) { t=1232, \mu_R^2=1232 as(t)=0.138 } CF_QCD::Coupling(pol=0) { t=1195, \mu_R^2=1195 as(t)=0.1384 } CF_QCD::Coupling(pol=0) { t=1130, \mu_R^2=1130 as(t)=0.139 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1065, \mu_R^2=1065 as(t)=0.1398 } CF_QCD::Coupling(pol=0) { t=1057, \mu_R^2=1057 as(t)=0.1399 } CF_QCD::Coupling(pol=0) { t=1020, \mu_R^2=1020 as(t)=0.1403 } CF_QCD::Coupling(pol=0) { t=998.9, \mu_R^2=998.9 as(t)=0.1406 } CF_QCD::Coupling(pol=0) { t=966.6, \mu_R^2=966.6 as(t)=0.141 } CF_QCD::Coupling(pol=0) { t=945.5, \mu_R^2=945.5 as(t)=0.1413 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=913.3, \mu_R^2=913.3 as(t)=0.1418 } CF_QCD::Coupling(pol=0) { t=899.6, \mu_R^2=899.6 as(t)=0.142 } CF_QCD::Coupling(pol=0) { t=875.4, \mu_R^2=875.4 as(t)=0.1423 } CF_QCD::Coupling(pol=0) { t=859.5, \mu_R^2=859.5 as(t)=0.1425 } CF_QCD::Coupling(pol=0) { t=821.8, \mu_R^2=821.8 as(t)=0.1431 } CF_QCD::Coupling(pol=0) { t=748.8, \mu_R^2=748.8 as(t)=0.1444 } CF_QCD::Coupling(pol=0) { t=719.6, \mu_R^2=719.6 as(t)=0.1449 } CF_QCD::Coupling(pol=0) { t=711.5, \mu_R^2=711.5 as(t)=0.1451 } CF_QCD::Coupling(pol=0) { t=688.6, \mu_R^2=688.6 as(t)=0.1455 } CF_QCD::Coupling(pol=0) { t=614.3, \mu_R^2=614.3 as(t)=0.1471 } CF_QCD::Coupling(pol=0) { t=528.9, \mu_R^2=528.9 as(t)=0.1492 } CF_QCD::Coupling(pol=0) { t=517.5, \mu_R^2=517.5 as(t)=0.1495 } CF_QCD::Coupling(pol=0) { t=516.1, \mu_R^2=516.1 as(t)=0.1496 } CF_QCD::Coupling(pol=0) { t=485.3, \mu_R^2=485.3 as(t)=0.1505 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=457.1, \mu_R^2=457.1 as(t)=0.1514 } CF_QCD::Coupling(pol=0) { t=414.1, \mu_R^2=414.1 as(t)=0.1529 } CF_QCD::Coupling(pol=0) { t=399.4, \mu_R^2=399.4 as(t)=0.1534 } CF_QCD::Coupling(pol=0) { t=371.4, \mu_R^2=371.4 as(t)=0.1545 } CF_QCD::Coupling(pol=0) { t=365.1, \mu_R^2=365.1 as(t)=0.1548 } CF_QCD::Coupling(pol=0) { t=362.4, \mu_R^2=362.4 as(t)=0.1549 } CF_QCD::Coupling(pol=0) { t=349.5, \mu_R^2=349.5 as(t)=0.1555 } CF_QCD::Coupling(pol=0) { t=337.9, \mu_R^2=337.9 as(t)=0.156 } CF_QCD::Coupling(pol=0) { t=298.6, \mu_R^2=298.6 as(t)=0.158 } CF_QCD::Coupling(pol=0) { t=291.6, \mu_R^2=291.6 as(t)=0.1584 } CF_QCD::Coupling(pol=0) { t=270.7, \mu_R^2=270.7 as(t)=0.1596 } CF_QCD::Coupling(pol=0) { t=269.2, \mu_R^2=269.2 as(t)=0.1597 } CF_QCD::Coupling(pol=0) { t=254.1, \mu_R^2=254.1 as(t)=0.1606 } CF_QCD::Coupling(pol=0) { t=245.4, \mu_R^2=245.4 as(t)=0.1612 } CF_QCD::Coupling(pol=0) { t=223.2, \mu_R^2=223.2 as(t)=0.1629 } CF_QCD::Coupling(pol=0) { t=220.9, \mu_R^2=220.9 as(t)=0.163 } CF_QCD::Coupling(pol=0) { t=215.4, \mu_R^2=215.4 as(t)=0.1635 } CF_QCD::Coupling(pol=0) { t=208.9, \mu_R^2=208.9 as(t)=0.164 } CF_QCD::Coupling(pol=0) { t=195.9, \mu_R^2=195.9 as(t)=0.1651 } CF_QCD::Coupling(pol=0) { t=195.7, \mu_R^2=195.7 as(t)=0.1652 } CF_QCD::Coupling(pol=0) { t=184.3, \mu_R^2=184.3 as(t)=0.1662 } CF_QCD::Coupling(pol=0) { t=184.1, \mu_R^2=184.1 as(t)=0.1663 } CF_QCD::Coupling(pol=0) { t=183, \mu_R^2=183 as(t)=0.1664 } CF_QCD::Coupling(pol=0) { t=181.4, \mu_R^2=181.4 as(t)=0.1665 } CF_QCD::Coupling(pol=0) { t=181.6, \mu_R^2=181.6 as(t)=0.1665 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=167.8, \mu_R^2=167.8 as(t)=0.1679 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=161.6, \mu_R^2=161.6 as(t)=0.1686 } CF_QCD::Coupling(pol=0) { t=145.8, \mu_R^2=145.8 as(t)=0.1706 } CF_QCD::Coupling(pol=0) { t=145.3, \mu_R^2=145.3 as(t)=0.1706 } CF_QCD::Coupling(pol=0) { t=144.1, \mu_R^2=144.1 as(t)=0.1708 } CF_QCD::Coupling(pol=0) { t=142.5, \mu_R^2=142.5 as(t)=0.171 } CF_QCD::Coupling(pol=0) { t=138.1, \mu_R^2=138.1 as(t)=0.1716 } CF_QCD::Coupling(pol=0) { t=134.7, \mu_R^2=134.7 as(t)=0.1721 } CF_QCD::Coupling(pol=0) { t=133.3, \mu_R^2=133.3 as(t)=0.1723 } CF_QCD::Coupling(pol=0) { t=130.9, \mu_R^2=130.9 as(t)=0.1727 } CF_QCD::Coupling(pol=0) { t=109.2, \mu_R^2=109.2 as(t)=0.1762 } CF_QCD::Coupling(pol=0) { t=108.6, \mu_R^2=108.6 as(t)=0.1764 } CF_QCD::Coupling(pol=0) { t=107.4, \mu_R^2=107.4 as(t)=0.1766 } CF_QCD::Coupling(pol=0) { t=106.5, \mu_R^2=106.5 as(t)=0.1768 } CF_QCD::Coupling(pol=0) { t=103.8, \mu_R^2=103.8 as(t)=0.1773 } CF_QCD::Coupling(pol=0) { t=103.7, \mu_R^2=103.7 as(t)=0.1773 } CF_QCD::Coupling(pol=0) { t=102.6, \mu_R^2=102.6 as(t)=0.1775 } CF_QCD::Coupling(pol=0) { t=100.7, \mu_R^2=100.7 as(t)=0.1779 } CF_QCD::Coupling(pol=0) { t=98.27, \mu_R^2=98.27 as(t)=0.1784 } CF_QCD::Coupling(pol=0) { t=96.41, \mu_R^2=96.41 as(t)=0.1788 } CF_QCD::Coupling(pol=0) { t=96.03, \mu_R^2=96.03 as(t)=0.1789 } CF_QCD::Coupling(pol=0) { t=131.4, \mu_R^2=131.4 as(t)=0.1726 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=85.69, \mu_R^2=85.69 as(t)=0.1813 } CF_QCD::Coupling(pol=0) { t=85.3, \mu_R^2=85.3 as(t)=0.1814 } CF_QCD::Coupling(pol=0) { t=80.12, \mu_R^2=80.12 as(t)=0.1828 } CF_QCD::Coupling(pol=0) { t=79.77, \mu_R^2=79.77 as(t)=0.1829 } CF_QCD::Coupling(pol=0) { t=79.53, \mu_R^2=79.53 as(t)=0.183 } CF_QCD::Coupling(pol=0) { t=74.8, \mu_R^2=74.8 as(t)=0.1843 } CF_QCD::Coupling(pol=0) { t=73.92, \mu_R^2=73.92 as(t)=0.1846 } CF_QCD::Coupling(pol=0) { t=71.6, \mu_R^2=71.6 as(t)=0.1853 } CF_QCD::Coupling(pol=0) { t=67.31, \mu_R^2=67.31 as(t)=0.1867 } CF_QCD::Coupling(pol=0) { t=67.12, \mu_R^2=67.12 as(t)=0.1868 } CF_QCD::Coupling(pol=0) { t=60.73, \mu_R^2=60.73 as(t)=0.1891 } CF_QCD::Coupling(pol=0) { t=59.87, \mu_R^2=59.87 as(t)=0.1894 } CF_QCD::Coupling(pol=0) { t=59.77, \mu_R^2=59.77 as(t)=0.1895 } CF_QCD::Coupling(pol=0) { t=57.01, \mu_R^2=57.01 as(t)=0.1906 } CF_QCD::Coupling(pol=0) { t=56.48, \mu_R^2=56.48 as(t)=0.1908 } CF_QCD::Coupling(pol=0) { t=55.92, \mu_R^2=55.92 as(t)=0.1911 } CF_QCD::Coupling(pol=0) { t=55.03, \mu_R^2=55.03 as(t)=0.1914 } CF_QCD::Coupling(pol=0) { t=54.68, \mu_R^2=54.68 as(t)=0.1916 } CF_QCD::Coupling(pol=0) { t=54.53, \mu_R^2=54.53 as(t)=0.1917 } CF_QCD::Coupling(pol=0) { t=52.02, \mu_R^2=52.02 as(t)=0.1928 } CF_QCD::Coupling(pol=0) { t=51.24, \mu_R^2=51.24 as(t)=0.1932 } CF_QCD::Coupling(pol=0) { t=1774, \mu_R^2=1774 as(t)=0.1336 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1667, \mu_R^2=1667 as(t)=0.1344 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1636, \mu_R^2=1636 as(t)=0.1346 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1623, \mu_R^2=1623 as(t)=0.1347 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1613, \mu_R^2=1613 as(t)=0.1347 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1482, \mu_R^2=1482 as(t)=0.1357 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1414, \mu_R^2=1414 as(t)=0.1363 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1294, \mu_R^2=1294 as(t)=0.1374 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1257, \mu_R^2=1257 as(t)=0.1377 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1181, \mu_R^2=1181 as(t)=0.1385 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=824.7, \mu_R^2=824.7 as(t)=0.1431 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=741.6, \mu_R^2=741.6 as(t)=0.1445 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=659.4, \mu_R^2=659.4 as(t)=0.1461 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=518.8, \mu_R^2=518.8 as(t)=0.1495 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=401.3, \mu_R^2=401.3 as(t)=0.1533 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=397.5, \mu_R^2=397.5 as(t)=0.1535 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=392.9, \mu_R^2=392.9 as(t)=0.1537 } CF_QCD::Coupling(pol=1) { } Emission cb -> cb G at kt = 43.98( 0 .. 99.61 ), z = 0.951, y = 0.04564 for Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: cb : (2577,0,0,-2577) 1.42 1.42 (500,0)[500,0] (Initial state parton) Colour partners (0x7ffbb5cea450,0x0) k_T start : 99.61 k_T test : 43.98 k_T veto : 20(4918) x_B : 0.6443 Parton 0x7ffbb5cea450 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (104,-75.84,-44.23,55.67) 4.768e-07 0 (602,500)[602,500] (Final state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb5c704f0) k_T start : 99.61 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 2 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=391.4, \mu_R^2=391.4 as(t)=0.1537 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=343.2, \mu_R^2=343.2 as(t)=0.1558 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=303.3, \mu_R^2=303.3 as(t)=0.1577 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=295, \mu_R^2=295 as(t)=0.1582 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=277.3, \mu_R^2=277.3 as(t)=0.1592 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=258.9, \mu_R^2=258.9 as(t)=0.1603 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=257.8, \mu_R^2=257.8 as(t)=0.1604 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=253.4, \mu_R^2=253.4 as(t)=0.1607 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=221.6, \mu_R^2=221.6 as(t)=0.163 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=211.5, \mu_R^2=211.5 as(t)=0.1638 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=192.3, \mu_R^2=192.3 as(t)=0.1655 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=176.7, \mu_R^2=176.7 as(t)=0.167 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=176, \mu_R^2=176 as(t)=0.1671 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=156.3, \mu_R^2=156.3 as(t)=0.1693 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=147.6, \mu_R^2=147.6 as(t)=0.1703 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=125.5, \mu_R^2=125.5 as(t)=0.1735 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=78.22, \mu_R^2=78.22 as(t)=0.1833 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=75.84, \mu_R^2=75.84 as(t)=0.184 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=68.72, \mu_R^2=68.72 as(t)=0.1862 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=58.3, \mu_R^2=58.3 as(t)=0.1901 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=54.94, \mu_R^2=54.94 as(t)=0.1915 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=54.07, \mu_R^2=54.07 as(t)=0.1919 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=45.1, \mu_R^2=45.1 as(t)=0.1964 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=40.27, \mu_R^2=40.27 as(t)=0.1993 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.72, \mu_R^2=34.72 as(t)=0.2033 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.36, \mu_R^2=34.36 as(t)=0.2035 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=33.56, \mu_R^2=33.56 as(t)=0.2042 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.44, \mu_R^2=31.44 as(t)=0.206 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=30.91, \mu_R^2=30.91 as(t)=0.2065 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=24.71, \mu_R^2=24.71 as(t)=0.213 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=23.35, \mu_R^2=23.35 as(t)=0.2147 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=23.15, \mu_R^2=23.15 as(t)=0.215 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=20.45, \mu_R^2=20.45 as(t)=0.219 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.53, \mu_R^2=19.53 as(t)=0.2207 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.47, \mu_R^2=19.47 as(t)=0.2208 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=18.94, \mu_R^2=18.94 as(t)=0.2218 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.76, \mu_R^2=17.76 as(t)=0.2242 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.33, \mu_R^2=17.33 as(t)=0.2251 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16, \mu_R^2=16 as(t)=0.2282 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.49, \mu_R^2=15.49 as(t)=0.2294 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.86, \mu_R^2=13.86 as(t)=0.2339 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.02, \mu_R^2=13.02 as(t)=0.2365 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.771, \mu_R^2=9.771 as(t)=0.2492 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.622, \mu_R^2=9.622 as(t)=0.25 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.582, \mu_R^2=9.582 as(t)=0.2502 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.293, \mu_R^2=9.293 as(t)=0.2516 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.426, \mu_R^2=8.426 as(t)=0.2564 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.753, \mu_R^2=7.753 as(t)=0.2606 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.345, \mu_R^2=7.345 as(t)=0.2635 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.951, \mu_R^2=6.951 as(t)=0.2664 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.079, \mu_R^2=6.079 as(t)=0.2739 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.603, \mu_R^2=5.603 as(t)=0.2787 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.585, \mu_R^2=5.585 as(t)=0.2789 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.503, \mu_R^2=5.503 as(t)=0.2798 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.582, \mu_R^2=3.582 as(t)=0.3085 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.358, \mu_R^2=3.358 as(t)=0.3134 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.076, \mu_R^2=3.076 as(t)=0.3203 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.045, \mu_R^2=3.045 as(t)=0.3212 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.96, \mu_R^2=2.96 as(t)=0.3235 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.816, \mu_R^2=2.816 as(t)=0.3277 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.406, \mu_R^2=2.406 as(t)=0.3417 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.396, \mu_R^2=2.396 as(t)=0.3421 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.395, \mu_R^2=2.395 as(t)=0.3421 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.151, \mu_R^2=2.151 as(t)=0.3525 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.126, \mu_R^2=2.126 as(t)=0.3538 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.116, \mu_R^2=2.116 as(t)=0.3542 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.985, \mu_R^2=1.985 as(t)=0.3597 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.958, \mu_R^2=1.958 as(t)=0.3613 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.869, \mu_R^2=1.869 as(t)=0.3671 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.817, \mu_R^2=1.817 as(t)=0.3706 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.726, \mu_R^2=1.726 as(t)=0.3773 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.55, \mu_R^2=1.55 as(t)=0.3924 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.169, \mu_R^2=1.169 as(t)=0.44 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.144, \mu_R^2=1.144 as(t)=0.4442 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9019, \mu_R^2=0.9019 as(t)=0.4986 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7631, \mu_R^2=0.7631 as(t)=0.5486 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5658, \mu_R^2=0.5658 as(t)=0.6811 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4821, \mu_R^2=0.4821 as(t)=0.7935 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4309, \mu_R^2=0.4309 as(t)=0.9045 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4073, \mu_R^2=0.4073 as(t)=0.9749 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.393, \mu_R^2=0.393 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.364, \mu_R^2=0.364 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=730, \mu_R^2=730 as(t)=0.1447 } CF_QCD::Coupling(pol=0) { t=719.5, \mu_R^2=719.5 as(t)=0.1449 } CF_QCD::Coupling(pol=0) { t=707.6, \mu_R^2=707.6 as(t)=0.1451 } CF_QCD::Coupling(pol=0) { t=594.2, \mu_R^2=594.2 as(t)=0.1476 } CF_QCD::Coupling(pol=0) { t=583.8, \mu_R^2=583.8 as(t)=0.1478 } CF_QCD::Coupling(pol=0) { t=573.4, \mu_R^2=573.4 as(t)=0.1481 } CF_QCD::Coupling(pol=0) { t=557.5, \mu_R^2=557.5 as(t)=0.1485 } CF_QCD::Coupling(pol=0) { t=541.2, \mu_R^2=541.2 as(t)=0.1489 } CF_QCD::Coupling(pol=0) { t=486.4, \mu_R^2=486.4 as(t)=0.1505 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=472.3, \mu_R^2=472.3 as(t)=0.1509 } CF_QCD::Coupling(pol=0) { t=463.8, \mu_R^2=463.8 as(t)=0.1512 } CF_QCD::Coupling(pol=0) { t=463.6, \mu_R^2=463.6 as(t)=0.1512 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=459.4, \mu_R^2=459.4 as(t)=0.1513 } CF_QCD::Coupling(pol=0) { t=439.4, \mu_R^2=439.4 as(t)=0.152 } CF_QCD::Coupling(pol=0) { t=424.6, \mu_R^2=424.6 as(t)=0.1525 } CF_QCD::Coupling(pol=0) { t=417.9, \mu_R^2=417.9 as(t)=0.1527 } CF_QCD::Coupling(pol=0) { t=395, \mu_R^2=395 as(t)=0.1536 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=390.1, \mu_R^2=390.1 as(t)=0.1538 } CF_QCD::Coupling(pol=0) { t=344.5, \mu_R^2=344.5 as(t)=0.1557 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=272.3, \mu_R^2=272.3 as(t)=0.1595 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=246.6, \mu_R^2=246.6 as(t)=0.1611 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=234.6, \mu_R^2=234.6 as(t)=0.162 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=197.6, \mu_R^2=197.6 as(t)=0.165 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=189.2, \mu_R^2=189.2 as(t)=0.1658 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=183.8, \mu_R^2=183.8 as(t)=0.1663 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=177.1, \mu_R^2=177.1 as(t)=0.167 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=174.8, \mu_R^2=174.8 as(t)=0.1672 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=160.5, \mu_R^2=160.5 as(t)=0.1688 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=145.8, \mu_R^2=145.8 as(t)=0.1706 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=141.4, \mu_R^2=141.4 as(t)=0.1712 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=128.9, \mu_R^2=128.9 as(t)=0.173 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=128.4, \mu_R^2=128.4 as(t)=0.173 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=123, \mu_R^2=123 as(t)=0.1739 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=79.42, \mu_R^2=79.42 as(t)=0.183 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=74.68, \mu_R^2=74.68 as(t)=0.1844 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=71.61, \mu_R^2=71.61 as(t)=0.1853 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=66.5, \mu_R^2=66.5 as(t)=0.187 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=60.12, \mu_R^2=60.12 as(t)=0.1893 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=53.85, \mu_R^2=53.85 as(t)=0.192 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=53.24, \mu_R^2=53.24 as(t)=0.1922 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=50.92, \mu_R^2=50.92 as(t)=0.1933 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=50.49, \mu_R^2=50.49 as(t)=0.1935 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.24, \mu_R^2=47.24 as(t)=0.1952 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=46.91, \mu_R^2=46.91 as(t)=0.1954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=43.63, \mu_R^2=43.63 as(t)=0.1972 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=42.8, \mu_R^2=42.8 as(t)=0.1977 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.59, \mu_R^2=41.59 as(t)=0.1985 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.57, \mu_R^2=41.57 as(t)=0.1985 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=40.64, \mu_R^2=40.64 as(t)=0.1991 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=36.7, \mu_R^2=36.7 as(t)=0.2018 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=36.56, \mu_R^2=36.56 as(t)=0.2019 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=35.3, \mu_R^2=35.3 as(t)=0.2028 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.22, \mu_R^2=34.22 as(t)=0.2037 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.09, \mu_R^2=34.09 as(t)=0.2038 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=29.64, \mu_R^2=29.64 as(t)=0.2077 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=26.24, \mu_R^2=26.24 as(t)=0.2112 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.94, \mu_R^2=25.94 as(t)=0.2116 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.05, \mu_R^2=25.05 as(t)=0.2126 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=24.78, \mu_R^2=24.78 as(t)=0.2129 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=23.04, \mu_R^2=23.04 as(t)=0.2151 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.68, \mu_R^2=22.68 as(t)=0.2154 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.28, \mu_R^2=22.28 as(t)=0.216 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=742.2, \mu_R^2=742.2 as(t)=0.1445 } CF_QCD::Coupling(pol=0) { t=736.9, \mu_R^2=736.9 as(t)=0.1446 } CF_QCD::Coupling(pol=0) { t=704.3, \mu_R^2=704.3 as(t)=0.1452 } CF_QCD::Coupling(pol=0) { t=678.7, \mu_R^2=678.7 as(t)=0.1457 } CF_QCD::Coupling(pol=0) { t=616.2, \mu_R^2=616.2 as(t)=0.1471 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=595.1, \mu_R^2=595.1 as(t)=0.1475 } CF_QCD::Coupling(pol=0) { t=577.8, \mu_R^2=577.8 as(t)=0.148 } CF_QCD::Coupling(pol=0) { t=420.5, \mu_R^2=420.5 as(t)=0.1526 } CF_QCD::Coupling(pol=0) { t=303.8, \mu_R^2=303.8 as(t)=0.1577 } CF_QCD::Coupling(pol=0) { t=232.4, \mu_R^2=232.4 as(t)=0.1622 } CF_QCD::Coupling(pol=0) { t=219.8, \mu_R^2=219.8 as(t)=0.1631 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=213.4, \mu_R^2=213.4 as(t)=0.1636 } CF_QCD::Coupling(pol=0) { t=206.4, \mu_R^2=206.4 as(t)=0.1642 } CF_QCD::Coupling(pol=0) { t=185.4, \mu_R^2=185.4 as(t)=0.1661 } CF_QCD::Coupling(pol=0) { t=179.7, \mu_R^2=179.7 as(t)=0.1667 } CF_QCD::Coupling(pol=0) { t=168.9, \mu_R^2=168.9 as(t)=0.1678 } CF_QCD::Coupling(pol=0) { t=136.5, \mu_R^2=136.5 as(t)=0.1718 } CF_QCD::Coupling(pol=0) { t=118.4, \mu_R^2=118.4 as(t)=0.1746 } CF_QCD::Coupling(pol=0) { t=105.8, \mu_R^2=105.8 as(t)=0.1769 } CF_QCD::Coupling(pol=0) { t=103.7, \mu_R^2=103.7 as(t)=0.1773 } Emission G -> G G at kt = 30.99( 0 .. 43.98 ), z = 0.3817, y = 0.008616 for Parton 0x7ffbb5cea450 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (124,-115,-36.65,28.36) 6.29e-06 0 (602,500)[602,500] (Final state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb5cb9580) k_T start : 43.98 k_T test : 30.99 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d909d0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2449,-1.421e-14,-7.105e-15,2449) 1.42 1.42 (0,602)[0,602] (Initial state parton) Colour partners (0x0,0x7ffbb5cea450) k_T start : 43.98 k_T test : 15.4 k_T veto : 20(4918) x_B : 0.6122 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 3 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=191.4, \mu_R^2=191.4 as(t)=0.1656 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=119.7, \mu_R^2=119.7 as(t)=0.1744 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=116.7, \mu_R^2=116.7 as(t)=0.1749 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=103.2, \mu_R^2=103.2 as(t)=0.1774 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=98.9, \mu_R^2=98.9 as(t)=0.1783 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=96.25, \mu_R^2=96.25 as(t)=0.1789 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=88.11, \mu_R^2=88.11 as(t)=0.1807 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=78.12, \mu_R^2=78.12 as(t)=0.1834 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=75.37, \mu_R^2=75.37 as(t)=0.1841 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=72.81, \mu_R^2=72.81 as(t)=0.1849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=72.56, \mu_R^2=72.56 as(t)=0.185 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=70.98, \mu_R^2=70.98 as(t)=0.1855 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=56.99, \mu_R^2=56.99 as(t)=0.1906 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=52.06, \mu_R^2=52.06 as(t)=0.1928 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=49.56, \mu_R^2=49.56 as(t)=0.194 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.34, \mu_R^2=47.34 as(t)=0.1951 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=46.41, \mu_R^2=46.41 as(t)=0.1956 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=211.1, \mu_R^2=211.1 as(t)=0.1638 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=151.4, \mu_R^2=151.4 as(t)=0.1699 } CF_QCD::Coupling(pol=0) { t=88.12, \mu_R^2=88.12 as(t)=0.1807 } CF_QCD::Coupling(pol=0) { t=56.19, \mu_R^2=56.19 as(t)=0.1909 } CF_QCD::Coupling(pol=0) { t=33.57, \mu_R^2=33.57 as(t)=0.2042 } CF_QCD::Coupling(pol=0) { t=22.67, \mu_R^2=22.67 as(t)=0.2154 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=21.02, \mu_R^2=21.02 as(t)=0.218 } CF_QCD::Coupling(pol=0) { t=385.7, \mu_R^2=385.7 as(t)=0.1539 } CF_QCD::Coupling(pol=0) { t=345.9, \mu_R^2=345.9 as(t)=0.1556 } CF_QCD::Coupling(pol=0) { t=342.2, \mu_R^2=342.2 as(t)=0.1558 } CF_QCD::Coupling(pol=0) { t=289.2, \mu_R^2=289.2 as(t)=0.1585 } CF_QCD::Coupling(pol=0) { t=282.6, \mu_R^2=282.6 as(t)=0.1589 } CF_QCD::Coupling(pol=0) { t=263.9, \mu_R^2=263.9 as(t)=0.16 } CF_QCD::Coupling(pol=0) { t=232.8, \mu_R^2=232.8 as(t)=0.1621 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=226.4, \mu_R^2=226.4 as(t)=0.1626 } CF_QCD::Coupling(pol=0) { t=218.1, \mu_R^2=218.1 as(t)=0.1633 } CF_QCD::Coupling(pol=0) { t=241.4, \mu_R^2=241.4 as(t)=0.1615 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=203.3, \mu_R^2=203.3 as(t)=0.1645 } CF_QCD::Coupling(pol=0) { t=199.2, \mu_R^2=199.2 as(t)=0.1648 } CF_QCD::Coupling(pol=0) { t=197.9, \mu_R^2=197.9 as(t)=0.165 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=179.3, \mu_R^2=179.3 as(t)=0.1667 } CF_QCD::Coupling(pol=0) { t=172.4, \mu_R^2=172.4 as(t)=0.1674 } CF_QCD::Coupling(pol=0) { t=170, \mu_R^2=170 as(t)=0.1677 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=163.7, \mu_R^2=163.7 as(t)=0.1684 } CF_QCD::Coupling(pol=0) { t=163, \mu_R^2=163 as(t)=0.1685 } CF_QCD::Coupling(pol=0) { t=149.3, \mu_R^2=149.3 as(t)=0.1701 } CF_QCD::Coupling(pol=0) { t=148.2, \mu_R^2=148.2 as(t)=0.1703 } CF_QCD::Coupling(pol=0) { t=138.4, \mu_R^2=138.4 as(t)=0.1716 } CF_QCD::Coupling(pol=0) { t=137.9, \mu_R^2=137.9 as(t)=0.1716 } CF_QCD::Coupling(pol=0) { t=121.7, \mu_R^2=121.7 as(t)=0.1741 } CF_QCD::Coupling(pol=0) { t=112.4, \mu_R^2=112.4 as(t)=0.1757 } CF_QCD::Coupling(pol=0) { t=109.2, \mu_R^2=109.2 as(t)=0.1763 } CF_QCD::Coupling(pol=0) { t=103.7, \mu_R^2=103.7 as(t)=0.1773 } CF_QCD::Coupling(pol=0) { t=98.59, \mu_R^2=98.59 as(t)=0.1784 } CF_QCD::Coupling(pol=0) { t=97.71, \mu_R^2=97.71 as(t)=0.1785 } CF_QCD::Coupling(pol=0) { t=90.51, \mu_R^2=90.51 as(t)=0.1802 } CF_QCD::Coupling(pol=0) { t=87.84, \mu_R^2=87.84 as(t)=0.1808 } CF_QCD::Coupling(pol=0) { t=84.34, \mu_R^2=84.34 as(t)=0.1817 } CF_QCD::Coupling(pol=0) { t=76.66, \mu_R^2=76.66 as(t)=0.1838 } CF_QCD::Coupling(pol=0) { t=75.94, \mu_R^2=75.94 as(t)=0.184 } CF_QCD::Coupling(pol=0) { t=68.8, \mu_R^2=68.8 as(t)=0.1862 } CF_QCD::Coupling(pol=0) { t=60.26, \mu_R^2=60.26 as(t)=0.1893 } CF_QCD::Coupling(pol=0) { t=58.56, \mu_R^2=58.56 as(t)=0.1899 } CF_QCD::Coupling(pol=0) { t=95.93, \mu_R^2=95.93 as(t)=0.1789 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=57.03, \mu_R^2=57.03 as(t)=0.1906 } CF_QCD::Coupling(pol=0) { t=52.29, \mu_R^2=52.29 as(t)=0.1927 } CF_QCD::Coupling(pol=0) { t=51.43, \mu_R^2=51.43 as(t)=0.1931 } CF_QCD::Coupling(pol=0) { t=52.79, \mu_R^2=52.79 as(t)=0.1924 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=46.74, \mu_R^2=46.74 as(t)=0.1955 } CF_QCD::Coupling(pol=0) { t=44.08, \mu_R^2=44.08 as(t)=0.1969 } CF_QCD::Coupling(pol=0) { t=43.02, \mu_R^2=43.02 as(t)=0.1976 } CF_QCD::Coupling(pol=0) { t=37.04, \mu_R^2=37.04 as(t)=0.2015 } CF_QCD::Coupling(pol=0) { t=36.84, \mu_R^2=36.84 as(t)=0.2017 } CF_QCD::Coupling(pol=0) { t=30.7, \mu_R^2=30.7 as(t)=0.2067 } CF_QCD::Coupling(pol=0) { t=29.89, \mu_R^2=29.89 as(t)=0.2074 } CF_QCD::Coupling(pol=0) { t=29.7, \mu_R^2=29.7 as(t)=0.2076 } CF_QCD::Coupling(pol=0) { t=29.54, \mu_R^2=29.54 as(t)=0.2078 } CF_QCD::Coupling(pol=0) { t=28.73, \mu_R^2=28.73 as(t)=0.2086 } CF_QCD::Coupling(pol=0) { t=28.33, \mu_R^2=28.33 as(t)=0.209 } CF_QCD::Coupling(pol=0) { t=27.47, \mu_R^2=27.47 as(t)=0.2099 } CF_QCD::Coupling(pol=0) { t=26.83, \mu_R^2=26.83 as(t)=0.2106 } CF_QCD::Coupling(pol=0) { t=26.76, \mu_R^2=26.76 as(t)=0.2107 } CF_QCD::Coupling(pol=0) { t=26.62, \mu_R^2=26.62 as(t)=0.2108 } CF_QCD::Coupling(pol=0) { t=26.4, \mu_R^2=26.4 as(t)=0.2111 } CF_QCD::Coupling(pol=0) { t=23.26, \mu_R^2=23.26 as(t)=0.2149 } CF_QCD::Coupling(pol=0) { t=22.91, \mu_R^2=22.91 as(t)=0.2151 } CF_QCD::Coupling(pol=0) { t=21.74, \mu_R^2=21.74 as(t)=0.2169 } CF_QCD::Coupling(pol=0) { t=20.54, \mu_R^2=20.54 as(t)=0.2189 } CF_QCD::Coupling(pol=0) { t=20.01, \mu_R^2=20.01 as(t)=0.2198 } CF_QCD::Coupling(pol=0) { t=18.91, \mu_R^2=18.91 as(t)=0.2219 } CF_QCD::Coupling(pol=0) { t=18.18, \mu_R^2=18.18 as(t)=0.2233 } CF_QCD::Coupling(pol=0) { t=17.64, \mu_R^2=17.64 as(t)=0.2244 } CF_QCD::Coupling(pol=0) { t=17.5, \mu_R^2=17.5 as(t)=0.2247 } CF_QCD::Coupling(pol=0) { t=17.09, \mu_R^2=17.09 as(t)=0.2256 } CF_QCD::Coupling(pol=0) { t=17.09, \mu_R^2=17.09 as(t)=0.2256 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.28, \mu_R^2=16.28 as(t)=0.2275 } CF_QCD::Coupling(pol=0) { t=15.73, \mu_R^2=15.73 as(t)=0.2288 } CF_QCD::Coupling(pol=0) { t=14.66, \mu_R^2=14.66 as(t)=0.2316 } CF_QCD::Coupling(pol=0) { t=14.19, \mu_R^2=14.19 as(t)=0.233 } CF_QCD::Coupling(pol=0) { t=12.92, \mu_R^2=12.92 as(t)=0.2368 } CF_QCD::Coupling(pol=0) { t=12.39, \mu_R^2=12.39 as(t)=0.2386 } CF_QCD::Coupling(pol=0) { t=10.74, \mu_R^2=10.74 as(t)=0.2449 } CF_QCD::Coupling(pol=0) { t=8.336, \mu_R^2=8.336 as(t)=0.2569 } CF_QCD::Coupling(pol=0) { t=7.588, \mu_R^2=7.588 as(t)=0.2617 } CF_QCD::Coupling(pol=0) { t=7.535, \mu_R^2=7.535 as(t)=0.2621 } CF_QCD::Coupling(pol=0) { t=7.391, \mu_R^2=7.391 as(t)=0.2631 } CF_QCD::Coupling(pol=0) { t=7.304, \mu_R^2=7.304 as(t)=0.2637 } CF_QCD::Coupling(pol=0) { t=7.244, \mu_R^2=7.244 as(t)=0.2642 } CF_QCD::Coupling(pol=0) { t=7.186, \mu_R^2=7.186 as(t)=0.2646 } CF_QCD::Coupling(pol=0) { t=6.706, \mu_R^2=6.706 as(t)=0.2684 } CF_QCD::Coupling(pol=0) { t=6.509, \mu_R^2=6.509 as(t)=0.27 } CF_QCD::Coupling(pol=0) { t=6.5, \mu_R^2=6.5 as(t)=0.2701 } CF_QCD::Coupling(pol=0) { t=6.461, \mu_R^2=6.461 as(t)=0.2704 } CF_QCD::Coupling(pol=0) { t=6.049, \mu_R^2=6.049 as(t)=0.2742 } CF_QCD::Coupling(pol=0) { t=5.943, \mu_R^2=5.943 as(t)=0.2752 } CF_QCD::Coupling(pol=0) { t=5.755, \mu_R^2=5.755 as(t)=0.2771 } CF_QCD::Coupling(pol=0) { t=5.746, \mu_R^2=5.746 as(t)=0.2772 } CF_QCD::Coupling(pol=0) { t=5.593, \mu_R^2=5.593 as(t)=0.2788 } CF_QCD::Coupling(pol=0) { t=5.573, \mu_R^2=5.573 as(t)=0.279 } CF_QCD::Coupling(pol=0) { t=5.534, \mu_R^2=5.534 as(t)=0.2794 } CF_QCD::Coupling(pol=0) { t=5.457, \mu_R^2=5.457 as(t)=0.2802 } CF_QCD::Coupling(pol=0) { t=5.124, \mu_R^2=5.124 as(t)=0.2841 } CF_QCD::Coupling(pol=0) { t=4.871, \mu_R^2=4.871 as(t)=0.2873 } CF_QCD::Coupling(pol=0) { t=4.822, \mu_R^2=4.822 as(t)=0.288 } CF_QCD::Coupling(pol=0) { t=4.709, \mu_R^2=4.709 as(t)=0.2895 } CF_QCD::Coupling(pol=0) { t=4.678, \mu_R^2=4.678 as(t)=0.2899 } CF_QCD::Coupling(pol=0) { t=4.667, \mu_R^2=4.667 as(t)=0.2901 } CF_QCD::Coupling(pol=0) { t=167.6, \mu_R^2=167.6 as(t)=0.168 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=165.7, \mu_R^2=165.7 as(t)=0.1682 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=165.4, \mu_R^2=165.4 as(t)=0.1682 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=145.4, \mu_R^2=145.4 as(t)=0.1706 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=144.6, \mu_R^2=144.6 as(t)=0.1707 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=358.5, \mu_R^2=358.5 as(t)=0.1551 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=301.6, \mu_R^2=301.6 as(t)=0.1578 } CF_QCD::Coupling(pol=0) { t=230.4, \mu_R^2=230.4 as(t)=0.1623 } CF_QCD::Coupling(pol=0) { t=218.3, \mu_R^2=218.3 as(t)=0.1632 } CF_QCD::Coupling(pol=0) { t=218.2, \mu_R^2=218.2 as(t)=0.1632 } CF_QCD::Coupling(pol=0) { t=206.4, \mu_R^2=206.4 as(t)=0.1642 } CF_QCD::Coupling(pol=0) { t=189.1, \mu_R^2=189.1 as(t)=0.1658 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=181.5, \mu_R^2=181.5 as(t)=0.1665 } CF_QCD::Coupling(pol=0) { t=155.2, \mu_R^2=155.2 as(t)=0.1694 } CF_QCD::Coupling(pol=0) { t=139.2, \mu_R^2=139.2 as(t)=0.1715 } CF_QCD::Coupling(pol=0) { t=138.4, \mu_R^2=138.4 as(t)=0.1716 } CF_QCD::Coupling(pol=0) { t=132.7, \mu_R^2=132.7 as(t)=0.1724 } CF_QCD::Coupling(pol=0) { t=129.7, \mu_R^2=129.7 as(t)=0.1728 } CF_QCD::Coupling(pol=0) { t=121.1, \mu_R^2=121.1 as(t)=0.1742 } CF_QCD::Coupling(pol=0) { t=105.5, \mu_R^2=105.5 as(t)=0.177 } CF_QCD::Coupling(pol=0) { t=103.3, \mu_R^2=103.3 as(t)=0.1774 } CF_QCD::Coupling(pol=0) { t=98.79, \mu_R^2=98.79 as(t)=0.1783 } CF_QCD::Coupling(pol=0) { t=93.56, \mu_R^2=93.56 as(t)=0.1795 } CF_QCD::Coupling(pol=0) { t=86.29, \mu_R^2=86.29 as(t)=0.1812 } CF_QCD::Coupling(pol=0) { t=75.38, \mu_R^2=75.38 as(t)=0.1841 } CF_QCD::Coupling(pol=0) { t=65.9, \mu_R^2=65.9 as(t)=0.1872 } CF_QCD::Coupling(pol=0) { t=61.37, \mu_R^2=61.37 as(t)=0.1888 } CF_QCD::Coupling(pol=0) { t=98.07, \mu_R^2=98.07 as(t)=0.1785 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=60.12, \mu_R^2=60.12 as(t)=0.1893 } CF_QCD::Coupling(pol=0) { t=59.79, \mu_R^2=59.79 as(t)=0.1895 } Emission G -> cb c at kt = 26.69( 0 .. 30.99 ), z = 0.9677, y = 0.01745 for Parton 0x7ffbb5c8f250 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: cb : (2710,0,0,-2710) 1.42 1.42 (603,0)[603,0] (Initial state parton) Colour partners (0x7ffbb5cb9580,0x0) k_T start : 30.99 k_T test : 26.69 k_T veto : 20(4918) x_B : 0.6775 Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (112.8,39.15,-7.577,-105.5) 1.673e-06 0 (500,603)[500,603] (Final state parton) Colour partners (0x7ffbb5d8b430,0x7ffbb5c8f250) k_T start : 30.99 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 4 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=143, \mu_R^2=143 as(t)=0.1709 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=139.4, \mu_R^2=139.4 as(t)=0.1714 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=109.3, \mu_R^2=109.3 as(t)=0.1762 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=103.3, \mu_R^2=103.3 as(t)=0.1774 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=90.13, \mu_R^2=90.13 as(t)=0.1803 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=86.38, \mu_R^2=86.38 as(t)=0.1812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=205.1, \mu_R^2=205.1 as(t)=0.1643 } CF_QCD::Coupling(pol=0) { t=177.1, \mu_R^2=177.1 as(t)=0.167 } CF_QCD::Coupling(pol=0) { t=158.3, \mu_R^2=158.3 as(t)=0.169 } CF_QCD::Coupling(pol=0) { t=70.83, \mu_R^2=70.83 as(t)=0.1855 } CF_QCD::Coupling(pol=0) { t=56.63, \mu_R^2=56.63 as(t)=0.1907 } CF_QCD::Coupling(pol=0) { t=48.2, \mu_R^2=48.2 as(t)=0.1947 } CF_QCD::Coupling(pol=0) { t=45.66, \mu_R^2=45.66 as(t)=0.1961 } CF_QCD::Coupling(pol=0) { t=45.63, \mu_R^2=45.63 as(t)=0.1961 } CF_QCD::Coupling(pol=0) { t=38, \mu_R^2=38 as(t)=0.2008 } CF_QCD::Coupling(pol=0) { t=35.33, \mu_R^2=35.33 as(t)=0.2028 } CF_QCD::Coupling(pol=0) { t=22.63, \mu_R^2=22.63 as(t)=0.2155 } CF_QCD::Coupling(pol=0) { t=20.4, \mu_R^2=20.4 as(t)=0.2191 } CF_QCD::Coupling(pol=0) { t=17.41, \mu_R^2=17.41 as(t)=0.2249 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.72, \mu_R^2=14.72 as(t)=0.2315 } CF_QCD::Coupling(pol=0) { t=10.88, \mu_R^2=10.88 as(t)=0.2443 } CF_QCD::Coupling(pol=0) { t=10.57, \mu_R^2=10.57 as(t)=0.2456 } CF_QCD::Coupling(pol=0) { t=7.524, \mu_R^2=7.524 as(t)=0.2622 } CF_QCD::Coupling(pol=0) { t=5.796, \mu_R^2=5.796 as(t)=0.2767 } CF_QCD::Coupling(pol=0) { t=5.768, \mu_R^2=5.768 as(t)=0.277 } CF_QCD::Coupling(pol=0) { t=5.003, \mu_R^2=5.003 as(t)=0.2856 } CF_QCD::Coupling(pol=0) { t=3.412, \mu_R^2=3.412 as(t)=0.3122 } CF_QCD::Coupling(pol=0) { t=2.211, \mu_R^2=2.211 as(t)=0.3498 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=248, \mu_R^2=248 as(t)=0.1611 } CF_QCD::Coupling(pol=0) { t=246.9, \mu_R^2=246.9 as(t)=0.1611 } CF_QCD::Coupling(pol=0) { t=194.6, \mu_R^2=194.6 as(t)=0.1653 } CF_QCD::Coupling(pol=0) { t=192.9, \mu_R^2=192.9 as(t)=0.1654 } CF_QCD::Coupling(pol=0) { t=189.5, \mu_R^2=189.5 as(t)=0.1657 } CF_QCD::Coupling(pol=0) { t=207.5, \mu_R^2=207.5 as(t)=0.1641 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=163.2, \mu_R^2=163.2 as(t)=0.1685 } CF_QCD::Coupling(pol=0) { t=159.6, \mu_R^2=159.6 as(t)=0.1689 } CF_QCD::Coupling(pol=0) { t=149.7, \mu_R^2=149.7 as(t)=0.1701 } CF_QCD::Coupling(pol=0) { t=138.7, \mu_R^2=138.7 as(t)=0.1715 } CF_QCD::Coupling(pol=0) { t=136.8, \mu_R^2=136.8 as(t)=0.1718 } CF_QCD::Coupling(pol=0) { t=136.6, \mu_R^2=136.6 as(t)=0.1718 } CF_QCD::Coupling(pol=0) { t=131, \mu_R^2=131 as(t)=0.1726 } CF_QCD::Coupling(pol=0) { t=130.7, \mu_R^2=130.7 as(t)=0.1727 } CF_QCD::Coupling(pol=0) { t=119.3, \mu_R^2=119.3 as(t)=0.1745 } CF_QCD::Coupling(pol=0) { t=113.1, \mu_R^2=113.1 as(t)=0.1756 } CF_QCD::Coupling(pol=0) { t=107.5, \mu_R^2=107.5 as(t)=0.1766 } CF_QCD::Coupling(pol=0) { t=104.9, \mu_R^2=104.9 as(t)=0.1771 } CF_QCD::Coupling(pol=0) { t=99.99, \mu_R^2=99.99 as(t)=0.1781 } CF_QCD::Coupling(pol=0) { t=84.33, \mu_R^2=84.33 as(t)=0.1817 } CF_QCD::Coupling(pol=0) { t=77.07, \mu_R^2=77.07 as(t)=0.1836 } CF_QCD::Coupling(pol=0) { t=75.56, \mu_R^2=75.56 as(t)=0.1841 } CF_QCD::Coupling(pol=0) { t=74.51, \mu_R^2=74.51 as(t)=0.1844 } CF_QCD::Coupling(pol=0) { t=74.11, \mu_R^2=74.11 as(t)=0.1845 } CF_QCD::Coupling(pol=0) { t=71.42, \mu_R^2=71.42 as(t)=0.1854 } CF_QCD::Coupling(pol=0) { t=66.13, \mu_R^2=66.13 as(t)=0.1871 } CF_QCD::Coupling(pol=0) { t=60.85, \mu_R^2=60.85 as(t)=0.189 } CF_QCD::Coupling(pol=0) { t=59.67, \mu_R^2=59.67 as(t)=0.1895 } CF_QCD::Coupling(pol=0) { t=54.44, \mu_R^2=54.44 as(t)=0.1917 } CF_QCD::Coupling(pol=0) { t=52.52, \mu_R^2=52.52 as(t)=0.1926 } CF_QCD::Coupling(pol=0) { t=52.27, \mu_R^2=52.27 as(t)=0.1927 } CF_QCD::Coupling(pol=0) { t=52.7, \mu_R^2=52.7 as(t)=0.1925 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=49.21, \mu_R^2=49.21 as(t)=0.1942 } CF_QCD::Coupling(pol=0) { t=42.87, \mu_R^2=42.87 as(t)=0.1977 } CF_QCD::Coupling(pol=0) { t=40.05, \mu_R^2=40.05 as(t)=0.1994 } CF_QCD::Coupling(pol=0) { t=38.37, \mu_R^2=38.37 as(t)=0.2006 } CF_QCD::Coupling(pol=0) { t=37.08, \mu_R^2=37.08 as(t)=0.2015 } CF_QCD::Coupling(pol=0) { t=35.79, \mu_R^2=35.79 as(t)=0.2024 } CF_QCD::Coupling(pol=0) { t=35.45, \mu_R^2=35.45 as(t)=0.2027 } CF_QCD::Coupling(pol=0) { t=34.51, \mu_R^2=34.51 as(t)=0.2034 } CF_QCD::Coupling(pol=0) { t=32.81, \mu_R^2=32.81 as(t)=0.2048 } CF_QCD::Coupling(pol=0) { t=31.17, \mu_R^2=31.17 as(t)=0.2063 } CF_QCD::Coupling(pol=0) { t=30.3, \mu_R^2=30.3 as(t)=0.2071 } CF_QCD::Coupling(pol=0) { t=28.46, \mu_R^2=28.46 as(t)=0.2089 } CF_QCD::Coupling(pol=0) { t=28.13, \mu_R^2=28.13 as(t)=0.2092 } CF_QCD::Coupling(pol=0) { t=26.51, \mu_R^2=26.51 as(t)=0.2109 } CF_QCD::Coupling(pol=0) { t=25.34, \mu_R^2=25.34 as(t)=0.2123 } CF_QCD::Coupling(pol=0) { t=24.62, \mu_R^2=24.62 as(t)=0.2131 } CF_QCD::Coupling(pol=0) { t=24.2, \mu_R^2=24.2 as(t)=0.2137 } CF_QCD::Coupling(pol=0) { t=23, \mu_R^2=23 as(t)=0.2149 } CF_QCD::Coupling(pol=0) { t=20.34, \mu_R^2=20.34 as(t)=0.2192 } CF_QCD::Coupling(pol=0) { t=19.95, \mu_R^2=19.95 as(t)=0.2199 } CF_QCD::Coupling(pol=0) { t=18.85, \mu_R^2=18.85 as(t)=0.222 } CF_QCD::Coupling(pol=0) { t=18.44, \mu_R^2=18.44 as(t)=0.2228 } CF_QCD::Coupling(pol=0) { t=14.86, \mu_R^2=14.86 as(t)=0.2311 } CF_QCD::Coupling(pol=0) { t=14.47, \mu_R^2=14.47 as(t)=0.2321 } CF_QCD::Coupling(pol=0) { t=13.95, \mu_R^2=13.95 as(t)=0.2336 } CF_QCD::Coupling(pol=0) { t=11.78, \mu_R^2=11.78 as(t)=0.2408 } CF_QCD::Coupling(pol=0) { t=11.4, \mu_R^2=11.4 as(t)=0.2422 } CF_QCD::Coupling(pol=0) { t=11.28, \mu_R^2=11.28 as(t)=0.2427 } CF_QCD::Coupling(pol=0) { t=135.3, \mu_R^2=135.3 as(t)=0.172 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=128.7, \mu_R^2=128.7 as(t)=0.173 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=125.6, \mu_R^2=125.6 as(t)=0.1735 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=109.1, \mu_R^2=109.1 as(t)=0.1763 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=109, \mu_R^2=109 as(t)=0.1763 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=108.7, \mu_R^2=108.7 as(t)=0.1764 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=102.6, \mu_R^2=102.6 as(t)=0.1775 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=101.3, \mu_R^2=101.3 as(t)=0.1778 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=100.8, \mu_R^2=100.8 as(t)=0.1779 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=97.14, \mu_R^2=97.14 as(t)=0.1787 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=90.44, \mu_R^2=90.44 as(t)=0.1802 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=86.04, \mu_R^2=86.04 as(t)=0.1812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=84.76, \mu_R^2=84.76 as(t)=0.1816 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=84.33, \mu_R^2=84.33 as(t)=0.1817 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=83.87, \mu_R^2=83.87 as(t)=0.1818 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=80.66, \mu_R^2=80.66 as(t)=0.1826 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=80.04, \mu_R^2=80.04 as(t)=0.1828 } CF_QCD::Coupling(pol=0) { t=73.81, \mu_R^2=73.81 as(t)=0.1846 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=72.14, \mu_R^2=72.14 as(t)=0.1851 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=68.18, \mu_R^2=68.18 as(t)=0.1864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=67.25, \mu_R^2=67.25 as(t)=0.1867 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=66.97, \mu_R^2=66.97 as(t)=0.1868 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=65.4, \mu_R^2=65.4 as(t)=0.1874 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=62.15, \mu_R^2=62.15 as(t)=0.1885 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=59.26, \mu_R^2=59.26 as(t)=0.1897 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=56.13, \mu_R^2=56.13 as(t)=0.191 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=48.29, \mu_R^2=48.29 as(t)=0.1946 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.78, \mu_R^2=47.78 as(t)=0.1949 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.35, \mu_R^2=47.35 as(t)=0.1951 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=45.56, \mu_R^2=45.56 as(t)=0.1961 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.81, \mu_R^2=41.81 as(t)=0.1983 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.67, \mu_R^2=41.67 as(t)=0.1984 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=40.1, \mu_R^2=40.1 as(t)=0.1994 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.21, \mu_R^2=39.21 as(t)=0.2 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=38.72, \mu_R^2=38.72 as(t)=0.2003 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.2, \mu_R^2=16.2 as(t)=0.2277 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.62, \mu_R^2=15.62 as(t)=0.2291 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.03, \mu_R^2=10.03 as(t)=0.248 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.651, \mu_R^2=9.651 as(t)=0.2498 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.567, \mu_R^2=7.567 as(t)=0.2619 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.118, \mu_R^2=7.118 as(t)=0.2651 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.958, \mu_R^2=6.958 as(t)=0.2664 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.89, \mu_R^2=5.89 as(t)=0.2757 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.759, \mu_R^2=5.759 as(t)=0.277 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.257, \mu_R^2=4.257 as(t)=0.2962 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.131, \mu_R^2=4.131 as(t)=0.2983 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.6, \mu_R^2=3.6 as(t)=0.3081 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.059, \mu_R^2=3.059 as(t)=0.3208 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.738, \mu_R^2=2.738 as(t)=0.3301 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.025, \mu_R^2=2.025 as(t)=0.3588 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.939, \mu_R^2=1.939 as(t)=0.3625 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.145, \mu_R^2=1.145 as(t)=0.4441 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8374, \mu_R^2=0.8374 as(t)=0.5194 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8106, \mu_R^2=0.8106 as(t)=0.5291 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6469, \mu_R^2=0.6469 as(t)=0.6127 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6019, \mu_R^2=0.6019 as(t)=0.6473 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5665, \mu_R^2=0.5665 as(t)=0.6804 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5423, \mu_R^2=0.5423 as(t)=0.707 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4024, \mu_R^2=0.4024 as(t)=0.992 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3871, \mu_R^2=0.3871 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3639, \mu_R^2=0.3639 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=287.9, \mu_R^2=287.9 as(t)=0.1586 } CF_QCD::Coupling(pol=0) { t=282.6, \mu_R^2=282.6 as(t)=0.1589 } CF_QCD::Coupling(pol=0) { t=265.8, \mu_R^2=265.8 as(t)=0.1599 } CF_QCD::Coupling(pol=0) { t=240.6, \mu_R^2=240.6 as(t)=0.1616 } CF_QCD::Coupling(pol=0) { t=213.8, \mu_R^2=213.8 as(t)=0.1636 } CF_QCD::Coupling(pol=0) { t=213.6, \mu_R^2=213.6 as(t)=0.1636 } CF_QCD::Coupling(pol=0) { t=203, \mu_R^2=203 as(t)=0.1645 } CF_QCD::Coupling(pol=0) { t=182, \mu_R^2=182 as(t)=0.1665 } CF_QCD::Coupling(pol=0) { t=179.3, \mu_R^2=179.3 as(t)=0.1667 } CF_QCD::Coupling(pol=0) { t=177.5, \mu_R^2=177.5 as(t)=0.1669 } CF_QCD::Coupling(pol=0) { t=148.1, \mu_R^2=148.1 as(t)=0.1703 } CF_QCD::Coupling(pol=0) { t=124.7, \mu_R^2=124.7 as(t)=0.1736 } CF_QCD::Coupling(pol=0) { t=118.8, \mu_R^2=118.8 as(t)=0.1746 } CF_QCD::Coupling(pol=0) { t=113.4, \mu_R^2=113.4 as(t)=0.1755 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=91.97, \mu_R^2=91.97 as(t)=0.1798 } CF_QCD::Coupling(pol=0) { t=81.95, \mu_R^2=81.95 as(t)=0.1823 } CF_QCD::Coupling(pol=0) { t=68.95, \mu_R^2=68.95 as(t)=0.1861 } CF_QCD::Coupling(pol=0) { t=65.65, \mu_R^2=65.65 as(t)=0.1873 } CF_QCD::Coupling(pol=0) { t=64.2, \mu_R^2=64.2 as(t)=0.1878 } CF_QCD::Coupling(pol=0) { t=63.32, \mu_R^2=63.32 as(t)=0.1881 } CF_QCD::Coupling(pol=0) { t=56.34, \mu_R^2=56.34 as(t)=0.1909 } CF_QCD::Coupling(pol=0) { t=53.18, \mu_R^2=53.18 as(t)=0.1923 } CF_QCD::Coupling(pol=0) { t=52.15, \mu_R^2=52.15 as(t)=0.1927 } CF_QCD::Coupling(pol=0) { t=50.2, \mu_R^2=50.2 as(t)=0.1937 } CF_QCD::Coupling(pol=0) { t=48.28, \mu_R^2=48.28 as(t)=0.1947 } CF_QCD::Coupling(pol=0) { t=46.46, \mu_R^2=46.46 as(t)=0.1956 } CF_QCD::Coupling(pol=0) { t=41.82, \mu_R^2=41.82 as(t)=0.1983 } CF_QCD::Coupling(pol=0) { t=41.23, \mu_R^2=41.23 as(t)=0.1987 } CF_QCD::Coupling(pol=0) { t=37.01, \mu_R^2=37.01 as(t)=0.2015 } CF_QCD::Coupling(pol=0) { t=35.73, \mu_R^2=35.73 as(t)=0.2025 } CF_QCD::Coupling(pol=0) { t=34.62, \mu_R^2=34.62 as(t)=0.2033 } CF_QCD::Coupling(pol=0) { t=33.09, \mu_R^2=33.09 as(t)=0.2046 } CF_QCD::Coupling(pol=0) { t=29.56, \mu_R^2=29.56 as(t)=0.2078 } CF_QCD::Coupling(pol=0) { t=28.73, \mu_R^2=28.73 as(t)=0.2086 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.87, \mu_R^2=25.87 as(t)=0.2116 } CF_QCD::Coupling(pol=0) { t=24.8, \mu_R^2=24.8 as(t)=0.2129 } CF_QCD::Coupling(pol=0) { t=22.16, \mu_R^2=22.16 as(t)=0.2162 } CF_QCD::Coupling(pol=0) { t=21.36, \mu_R^2=21.36 as(t)=0.2175 } CF_QCD::Coupling(pol=0) { t=21.03, \mu_R^2=21.03 as(t)=0.218 } CF_QCD::Coupling(pol=0) { t=20.75, \mu_R^2=20.75 as(t)=0.2185 } CF_QCD::Coupling(pol=0) { t=20.54, \mu_R^2=20.54 as(t)=0.2189 } CF_QCD::Coupling(pol=0) { t=20.52, \mu_R^2=20.52 as(t)=0.2189 } CF_QCD::Coupling(pol=0) { t=18.87, \mu_R^2=18.87 as(t)=0.2219 } CF_QCD::Coupling(pol=0) { t=18.7, \mu_R^2=18.7 as(t)=0.2223 } CF_QCD::Coupling(pol=0) { t=18.14, \mu_R^2=18.14 as(t)=0.2234 } CF_QCD::Coupling(pol=0) { t=17.47, \mu_R^2=17.47 as(t)=0.2248 } CF_QCD::Coupling(pol=0) { t=17.31, \mu_R^2=17.31 as(t)=0.2252 } CF_QCD::Coupling(pol=0) { t=16.23, \mu_R^2=16.23 as(t)=0.2276 } CF_QCD::Coupling(pol=0) { t=18.51, \mu_R^2=18.51 as(t)=0.2227 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.4, \mu_R^2=14.4 as(t)=0.2323 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.76, \mu_R^2=13.76 as(t)=0.2342 } CF_QCD::Coupling(pol=0) { t=13.67, \mu_R^2=13.67 as(t)=0.2345 } CF_QCD::Coupling(pol=0) { t=13.36, \mu_R^2=13.36 as(t)=0.2354 } CF_QCD::Coupling(pol=0) { t=12.52, \mu_R^2=12.52 as(t)=0.2382 } CF_QCD::Coupling(pol=0) { t=11.22, \mu_R^2=11.22 as(t)=0.2429 } CF_QCD::Coupling(pol=0) { t=10.92, \mu_R^2=10.92 as(t)=0.2441 } CF_QCD::Coupling(pol=0) { t=10.69, \mu_R^2=10.69 as(t)=0.2451 } CF_QCD::Coupling(pol=0) { t=9.859, \mu_R^2=9.859 as(t)=0.2488 } CF_QCD::Coupling(pol=0) { t=8.39, \mu_R^2=8.39 as(t)=0.2566 } CF_QCD::Coupling(pol=0) { t=8.069, \mu_R^2=8.069 as(t)=0.2586 } CF_QCD::Coupling(pol=0) { t=6.629, \mu_R^2=6.629 as(t)=0.269 } CF_QCD::Coupling(pol=0) { t=6.615, \mu_R^2=6.615 as(t)=0.2691 } CF_QCD::Coupling(pol=0) { t=6.374, \mu_R^2=6.374 as(t)=0.2712 } Emission c -> c G at kt = 20.62( 0 .. 26.69 ), z = 0.9687, y = 0.04508 for Parton 0x7ffbb5d909d0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2470,-1.433e-14,-7.167e-15,2470) 1.42 1.42 (0,602)[0,602] (Initial state parton) Colour partners (0x0,0x7ffbb5c704f0) k_T start : 26.69 k_T test : 20.62 k_T veto : 20(4918) x_B : 0.6175 Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (60.29,-45.27,-39.8,1.18) 2.913e-05 0 (602,604)[602,604] (Final state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb5d8b430) k_T start : 26.69 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 5 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=72.97, \mu_R^2=72.97 as(t)=0.1849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=68.12, \mu_R^2=68.12 as(t)=0.1864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=67.97, \mu_R^2=67.97 as(t)=0.1865 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=66.72, \mu_R^2=66.72 as(t)=0.1869 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=61.48, \mu_R^2=61.48 as(t)=0.1888 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=158.8, \mu_R^2=158.8 as(t)=0.169 } CF_QCD::Coupling(pol=0) { t=156.8, \mu_R^2=156.8 as(t)=0.1692 } CF_QCD::Coupling(pol=0) { t=113.4, \mu_R^2=113.4 as(t)=0.1755 } CF_QCD::Coupling(pol=0) { t=109.8, \mu_R^2=109.8 as(t)=0.1761 } CF_QCD::Coupling(pol=0) { t=105, \mu_R^2=105 as(t)=0.177 } CF_QCD::Coupling(pol=0) { t=82.38, \mu_R^2=82.38 as(t)=0.1822 } CF_QCD::Coupling(pol=0) { t=72.02, \mu_R^2=72.02 as(t)=0.1852 } CF_QCD::Coupling(pol=0) { t=71.29, \mu_R^2=71.29 as(t)=0.1854 } CF_QCD::Coupling(pol=0) { t=63.64, \mu_R^2=63.64 as(t)=0.188 } CF_QCD::Coupling(pol=0) { t=63.01, \mu_R^2=63.01 as(t)=0.1882 } CF_QCD::Coupling(pol=0) { t=143.3, \mu_R^2=143.3 as(t)=0.1709 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=79.12, \mu_R^2=79.12 as(t)=0.1831 } CF_QCD::Coupling(pol=0) { t=75.77, \mu_R^2=75.77 as(t)=0.184 } CF_QCD::Coupling(pol=0) { t=61.34, \mu_R^2=61.34 as(t)=0.1889 } CF_QCD::Coupling(pol=0) { t=55.2, \mu_R^2=55.2 as(t)=0.1914 } CF_QCD::Coupling(pol=0) { t=41.34, \mu_R^2=41.34 as(t)=0.1986 } CF_QCD::Coupling(pol=0) { t=34.64, \mu_R^2=34.64 as(t)=0.2033 } CF_QCD::Coupling(pol=0) { t=16.67, \mu_R^2=16.67 as(t)=0.2266 } CF_QCD::Coupling(pol=0) { t=15.78, \mu_R^2=15.78 as(t)=0.2287 } CF_QCD::Coupling(pol=0) { t=14.42, \mu_R^2=14.42 as(t)=0.2323 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.74, \mu_R^2=12.74 as(t)=0.2374 } CF_QCD::Coupling(pol=0) { t=12.36, \mu_R^2=12.36 as(t)=0.2387 } CF_QCD::Coupling(pol=0) { t=9.523, \mu_R^2=9.523 as(t)=0.2504 } CF_QCD::Coupling(pol=0) { t=7.036, \mu_R^2=7.036 as(t)=0.2657 } CF_QCD::Coupling(pol=0) { t=6.131, \mu_R^2=6.131 as(t)=0.2734 } CF_QCD::Coupling(pol=0) { t=132.6, \mu_R^2=132.6 as(t)=0.1724 } CF_QCD::Coupling(pol=0) { t=36.42, \mu_R^2=36.42 as(t)=0.202 } CF_QCD::Coupling(pol=0) { t=32.57, \mu_R^2=32.57 as(t)=0.205 } CF_QCD::Coupling(pol=0) { t=32.4, \mu_R^2=32.4 as(t)=0.2052 } CF_QCD::Coupling(pol=0) { t=32.39, \mu_R^2=32.39 as(t)=0.2052 } CF_QCD::Coupling(pol=0) { t=24.22, \mu_R^2=24.22 as(t)=0.2136 } CF_QCD::Coupling(pol=0) { t=22.52, \mu_R^2=22.52 as(t)=0.2156 } CF_QCD::Coupling(pol=0) { t=20.49, \mu_R^2=20.49 as(t)=0.219 } CF_QCD::Coupling(pol=0) { t=18.95, \mu_R^2=18.95 as(t)=0.2218 } CF_QCD::Coupling(pol=0) { t=14.21, \mu_R^2=14.21 as(t)=0.2329 } CF_QCD::Coupling(pol=0) { t=13.24, \mu_R^2=13.24 as(t)=0.2358 } CF_QCD::Coupling(pol=0) { t=9.52, \mu_R^2=9.52 as(t)=0.2505 } CF_QCD::Coupling(pol=0) { t=8.101, \mu_R^2=8.101 as(t)=0.2584 } CF_QCD::Coupling(pol=0) { t=6.171, \mu_R^2=6.171 as(t)=0.273 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.9, \mu_R^2=5.9 as(t)=0.2756 } CF_QCD::Coupling(pol=0) { t=78.7, \mu_R^2=78.7 as(t)=0.1832 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=72.86, \mu_R^2=72.86 as(t)=0.1849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=67.39, \mu_R^2=67.39 as(t)=0.1867 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=63.15, \mu_R^2=63.15 as(t)=0.1882 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=63.08, \mu_R^2=63.08 as(t)=0.1882 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=59.13, \mu_R^2=59.13 as(t)=0.1897 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=58, \mu_R^2=58 as(t)=0.1902 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=49.86, \mu_R^2=49.86 as(t)=0.1938 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=49.69, \mu_R^2=49.69 as(t)=0.1939 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.97, \mu_R^2=47.97 as(t)=0.1948 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=45.71, \mu_R^2=45.71 as(t)=0.196 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=45.52, \mu_R^2=45.52 as(t)=0.1961 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.7, \mu_R^2=41.7 as(t)=0.1984 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.31, \mu_R^2=41.31 as(t)=0.1986 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=38.77, \mu_R^2=38.77 as(t)=0.2003 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=52.47, \mu_R^2=52.47 as(t)=0.1926 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=44.93, \mu_R^2=44.93 as(t)=0.1965 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.26, \mu_R^2=39.26 as(t)=0.2 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=35.69, \mu_R^2=35.69 as(t)=0.2025 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=28.2, \mu_R^2=28.2 as(t)=0.2091 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.06, \mu_R^2=17.06 as(t)=0.2257 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.47, \mu_R^2=15.47 as(t)=0.2295 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.28, \mu_R^2=14.28 as(t)=0.2327 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.09, \mu_R^2=13.09 as(t)=0.2363 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.969, \mu_R^2=9.969 as(t)=0.2483 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.441, \mu_R^2=9.441 as(t)=0.2509 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.37, \mu_R^2=8.37 as(t)=0.2567 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.722, \mu_R^2=6.722 as(t)=0.2682 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.271, \mu_R^2=6.271 as(t)=0.2721 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.806, \mu_R^2=5.806 as(t)=0.2766 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.719, \mu_R^2=5.719 as(t)=0.2774 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.802, \mu_R^2=4.802 as(t)=0.2882 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.636, \mu_R^2=4.636 as(t)=0.2905 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.122, \mu_R^2=4.122 as(t)=0.2984 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.703, \mu_R^2=3.703 as(t)=0.306 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.588, \mu_R^2=3.588 as(t)=0.3084 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.324, \mu_R^2=3.324 as(t)=0.3142 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.351, \mu_R^2=2.351 as(t)=0.3439 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.227, \mu_R^2=2.227 as(t)=0.3491 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.993, \mu_R^2=1.993 as(t)=0.3592 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.964, \mu_R^2=1.964 as(t)=0.3609 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.942, \mu_R^2=1.942 as(t)=0.3623 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.772, \mu_R^2=1.772 as(t)=0.3739 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.376, \mu_R^2=1.376 as(t)=0.4108 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.091, \mu_R^2=1.091 as(t)=0.4539 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9008, \mu_R^2=0.9008 as(t)=0.499 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6848, \mu_R^2=0.6848 as(t)=0.5886 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6734, \mu_R^2=0.6734 as(t)=0.5954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6637, \mu_R^2=0.6637 as(t)=0.6016 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6295, \mu_R^2=0.6295 as(t)=0.6253 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5759, \mu_R^2=0.5759 as(t)=0.671 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.531, \mu_R^2=0.531 as(t)=0.7207 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4013, \mu_R^2=0.4013 as(t)=0.9958 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=164.1, \mu_R^2=164.1 as(t)=0.1684 } CF_QCD::Coupling(pol=0) { t=141.5, \mu_R^2=141.5 as(t)=0.1711 } CF_QCD::Coupling(pol=0) { t=134.3, \mu_R^2=134.3 as(t)=0.1722 } CF_QCD::Coupling(pol=0) { t=123, \mu_R^2=123 as(t)=0.1739 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=92.89, \mu_R^2=92.89 as(t)=0.1796 } CF_QCD::Coupling(pol=0) { t=90.98, \mu_R^2=90.98 as(t)=0.18 } CF_QCD::Coupling(pol=0) { t=90.85, \mu_R^2=90.85 as(t)=0.1801 } CF_QCD::Coupling(pol=0) { t=87.39, \mu_R^2=87.39 as(t)=0.1809 } CF_QCD::Coupling(pol=0) { t=79.47, \mu_R^2=79.47 as(t)=0.183 } CF_QCD::Coupling(pol=0) { t=77.67, \mu_R^2=77.67 as(t)=0.1835 } CF_QCD::Coupling(pol=0) { t=71.02, \mu_R^2=71.02 as(t)=0.1855 } CF_QCD::Coupling(pol=0) { t=70.79, \mu_R^2=70.79 as(t)=0.1856 } CF_QCD::Coupling(pol=0) { t=67.32, \mu_R^2=67.32 as(t)=0.1867 } CF_QCD::Coupling(pol=0) { t=65.44, \mu_R^2=65.44 as(t)=0.1873 } CF_QCD::Coupling(pol=0) { t=62.12, \mu_R^2=62.12 as(t)=0.1886 } CF_QCD::Coupling(pol=0) { t=60.84, \mu_R^2=60.84 as(t)=0.189 } CF_QCD::Coupling(pol=0) { t=56.1, \mu_R^2=56.1 as(t)=0.191 } CF_QCD::Coupling(pol=0) { t=51.88, \mu_R^2=51.88 as(t)=0.1929 } CF_QCD::Coupling(pol=0) { t=39.37, \mu_R^2=39.37 as(t)=0.1999 } CF_QCD::Coupling(pol=0) { t=37.08, \mu_R^2=37.08 as(t)=0.2015 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.8, \mu_R^2=34.8 as(t)=0.2032 } CF_QCD::Coupling(pol=0) { t=34.18, \mu_R^2=34.18 as(t)=0.2037 } CF_QCD::Coupling(pol=0) { t=33.91, \mu_R^2=33.91 as(t)=0.2039 } CF_QCD::Coupling(pol=0) { t=32.52, \mu_R^2=32.52 as(t)=0.2051 } CF_QCD::Coupling(pol=0) { t=31.76, \mu_R^2=31.76 as(t)=0.2057 } CF_QCD::Coupling(pol=0) { t=30.68, \mu_R^2=30.68 as(t)=0.2067 } CF_QCD::Coupling(pol=0) { t=28.3, \mu_R^2=28.3 as(t)=0.209 } CF_QCD::Coupling(pol=0) { t=27.81, \mu_R^2=27.81 as(t)=0.2095 } CF_QCD::Coupling(pol=0) { t=25.48, \mu_R^2=25.48 as(t)=0.2121 } CF_QCD::Coupling(pol=0) { t=24.61, \mu_R^2=24.61 as(t)=0.2131 } CF_QCD::Coupling(pol=0) { t=23.12, \mu_R^2=23.12 as(t)=0.2151 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=21.15, \mu_R^2=21.15 as(t)=0.2178 } CF_QCD::Coupling(pol=0) { t=19.98, \mu_R^2=19.98 as(t)=0.2199 } CF_QCD::Coupling(pol=0) { t=19.44, \mu_R^2=19.44 as(t)=0.2208 } CF_QCD::Coupling(pol=0) { t=19.12, \mu_R^2=19.12 as(t)=0.2215 } CF_QCD::Coupling(pol=0) { t=18.85, \mu_R^2=18.85 as(t)=0.222 } CF_QCD::Coupling(pol=0) { t=17.56, \mu_R^2=17.56 as(t)=0.2246 } CF_QCD::Coupling(pol=0) { t=17.36, \mu_R^2=17.36 as(t)=0.225 } CF_QCD::Coupling(pol=0) { t=16.67, \mu_R^2=16.67 as(t)=0.2266 } CF_QCD::Coupling(pol=0) { t=15.78, \mu_R^2=15.78 as(t)=0.2287 } CF_QCD::Coupling(pol=0) { t=15.7, \mu_R^2=15.7 as(t)=0.2289 } CF_QCD::Coupling(pol=0) { t=13.89, \mu_R^2=13.89 as(t)=0.2338 } CF_QCD::Coupling(pol=0) { t=13.79, \mu_R^2=13.79 as(t)=0.2341 } CF_QCD::Coupling(pol=0) { t=13.62, \mu_R^2=13.62 as(t)=0.2346 } CF_QCD::Coupling(pol=0) { t=12.67, \mu_R^2=12.67 as(t)=0.2376 } CF_QCD::Coupling(pol=0) { t=12.4, \mu_R^2=12.4 as(t)=0.2386 } CF_QCD::Coupling(pol=0) { t=11.05, \mu_R^2=11.05 as(t)=0.2436 } CF_QCD::Coupling(pol=0) { t=8.394, \mu_R^2=8.394 as(t)=0.2566 } CF_QCD::Coupling(pol=0) { t=7.305, \mu_R^2=7.305 as(t)=0.2637 } CF_QCD::Coupling(pol=0) { t=7.225, \mu_R^2=7.225 as(t)=0.2643 } CF_QCD::Coupling(pol=0) { t=7.058, \mu_R^2=7.058 as(t)=0.2656 } CF_QCD::Coupling(pol=0) { t=7.057, \mu_R^2=7.057 as(t)=0.2656 } CF_QCD::Coupling(pol=0) { t=6.888, \mu_R^2=6.888 as(t)=0.2669 } CF_QCD::Coupling(pol=0) { t=6.809, \mu_R^2=6.809 as(t)=0.2675 } CF_QCD::Coupling(pol=0) { t=6.797, \mu_R^2=6.797 as(t)=0.2676 } CF_QCD::Coupling(pol=0) { t=6.521, \mu_R^2=6.521 as(t)=0.2699 } CF_QCD::Coupling(pol=0) { t=6.241, \mu_R^2=6.241 as(t)=0.2724 } CF_QCD::Coupling(pol=0) { t=6.201, \mu_R^2=6.201 as(t)=0.2728 } CF_QCD::Coupling(pol=0) { t=5.887, \mu_R^2=5.887 as(t)=0.2757 } CF_QCD::Coupling(pol=0) { t=5.446, \mu_R^2=5.446 as(t)=0.2804 } CF_QCD::Coupling(pol=0) { t=5.322, \mu_R^2=5.322 as(t)=0.2818 } CF_QCD::Coupling(pol=0) { t=5.258, \mu_R^2=5.258 as(t)=0.2825 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.188, \mu_R^2=5.188 as(t)=0.2833 } CF_QCD::Coupling(pol=0) { t=5.128, \mu_R^2=5.128 as(t)=0.2841 } CF_QCD::Coupling(pol=0) { t=4.644, \mu_R^2=4.644 as(t)=0.2904 } CF_QCD::Coupling(pol=0) { t=4.193, \mu_R^2=4.193 as(t)=0.2972 } CF_QCD::Coupling(pol=0) { t=4.128, \mu_R^2=4.128 as(t)=0.2983 } CF_QCD::Coupling(pol=0) { t=3.878, \mu_R^2=3.878 as(t)=0.3027 } CF_QCD::Coupling(pol=0) { t=3.75, \mu_R^2=3.75 as(t)=0.3051 } CF_QCD::Coupling(pol=0) { t=3.508, \mu_R^2=3.508 as(t)=0.3101 } CF_QCD::Coupling(pol=0) { t=3.496, \mu_R^2=3.496 as(t)=0.3103 } CF_QCD::Coupling(pol=0) { t=3.39, \mu_R^2=3.39 as(t)=0.3127 } CF_QCD::Coupling(pol=0) { t=3.201, \mu_R^2=3.201 as(t)=0.3171 } CF_QCD::Coupling(pol=0) { t=3.117, \mu_R^2=3.117 as(t)=0.3193 } CF_QCD::Coupling(pol=0) { t=3.081, \mu_R^2=3.081 as(t)=0.3202 } CF_QCD::Coupling(pol=0) { t=2.926, \mu_R^2=2.926 as(t)=0.3244 } Emission G -> c cb at kt = 17.4( 0 .. 20.62 ), z = 0.9615, y = 0.02142 for Parton 0x7ffbb488e230 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: c : (2550,-1.48e-14,-7.399e-15,2550) 1.42 1.42 (0,606)[0,606] (Initial state parton) Colour partners (0x0,0x7ffbb488e0a0) k_T start : 20.62 k_T test : 17.4 k_T veto : 20(4918) x_B : 0.6374 Parton 0x7ffbb488e0a0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (58.92,15.7,7.769,56.25) 1.635e-06 0 (606,602)[606,602] (Final state parton) Colour partners (0x7ffbb488e230,0x7ffbb5c704f0) k_T start : 20.62 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 6 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=60.7, \mu_R^2=60.7 as(t)=0.1891 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=60.2, \mu_R^2=60.2 as(t)=0.1893 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=56.52, \mu_R^2=56.52 as(t)=0.1908 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=55.17, \mu_R^2=55.17 as(t)=0.1914 } CF_QCD::Coupling(pol=0) { t=52.52, \mu_R^2=52.52 as(t)=0.1926 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=50.31, \mu_R^2=50.31 as(t)=0.1936 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.59, \mu_R^2=47.59 as(t)=0.195 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.99, \mu_R^2=39.99 as(t)=0.1995 } CF_QCD::Coupling(pol=0) { t=36.44, \mu_R^2=36.44 as(t)=0.202 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=35.93, \mu_R^2=35.93 as(t)=0.2023 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.7, \mu_R^2=34.7 as(t)=0.2033 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.01, \mu_R^2=34.01 as(t)=0.2038 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=33.38, \mu_R^2=33.38 as(t)=0.2043 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.79, \mu_R^2=31.79 as(t)=0.2057 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=26.76, \mu_R^2=26.76 as(t)=0.2107 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.33, \mu_R^2=25.33 as(t)=0.2123 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=23.28, \mu_R^2=23.28 as(t)=0.2148 } CF_QCD::Coupling(pol=0) { t=22.31, \mu_R^2=22.31 as(t)=0.216 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=21.51, \mu_R^2=21.51 as(t)=0.2172 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=21.3, \mu_R^2=21.3 as(t)=0.2176 } CF_QCD::Coupling(pol=0) { t=20.67, \mu_R^2=20.67 as(t)=0.2187 } CF_QCD::Coupling(pol=0) { t=20.49, \mu_R^2=20.49 as(t)=0.219 } CF_QCD::Coupling(pol=0) { t=18, \mu_R^2=18 as(t)=0.2237 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.5, \mu_R^2=17.5 as(t)=0.2247 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.78, \mu_R^2=14.78 as(t)=0.2313 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.78, \mu_R^2=14.78 as(t)=0.2313 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.6, \mu_R^2=12.6 as(t)=0.2379 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.82, \mu_R^2=11.82 as(t)=0.2406 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.75, \mu_R^2=11.75 as(t)=0.2409 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.38, \mu_R^2=10.38 as(t)=0.2464 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.07, \mu_R^2=10.07 as(t)=0.2478 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.623, \mu_R^2=9.623 as(t)=0.25 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.191, \mu_R^2=9.191 as(t)=0.2521 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.656, \mu_R^2=8.656 as(t)=0.2551 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.246, \mu_R^2=8.246 as(t)=0.2575 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=68.04, \mu_R^2=68.04 as(t)=0.1865 } CF_QCD::Coupling(pol=0) { t=6.621, \mu_R^2=6.621 as(t)=0.2691 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.389, \mu_R^2=6.389 as(t)=0.2711 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.374, \mu_R^2=5.374 as(t)=0.2812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.885, \mu_R^2=4.885 as(t)=0.2871 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.853, \mu_R^2=4.853 as(t)=0.2876 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.83, \mu_R^2=4.83 as(t)=0.2878 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.735, \mu_R^2=4.735 as(t)=0.2891 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.02, \mu_R^2=4.02 as(t)=0.3002 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.936, \mu_R^2=3.936 as(t)=0.3016 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.861, \mu_R^2=3.861 as(t)=0.303 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.861, \mu_R^2=3.861 as(t)=0.303 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.721, \mu_R^2=3.721 as(t)=0.3057 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.571, \mu_R^2=3.571 as(t)=0.3087 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.455, \mu_R^2=3.455 as(t)=0.3112 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.333, \mu_R^2=3.333 as(t)=0.314 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.319, \mu_R^2=3.319 as(t)=0.3143 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.287, \mu_R^2=3.287 as(t)=0.3151 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.959, \mu_R^2=2.959 as(t)=0.3235 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.573, \mu_R^2=2.573 as(t)=0.3356 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.373, \mu_R^2=2.373 as(t)=0.343 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.304, \mu_R^2=2.304 as(t)=0.3458 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.294, \mu_R^2=2.294 as(t)=0.3462 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.206, \mu_R^2=2.206 as(t)=0.3501 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.172, \mu_R^2=2.172 as(t)=0.3516 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.069, \mu_R^2=2.069 as(t)=0.3565 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.698, \mu_R^2=1.698 as(t)=0.3796 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.586, \mu_R^2=1.586 as(t)=0.389 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.329, \mu_R^2=1.329 as(t)=0.4167 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.276, \mu_R^2=1.276 as(t)=0.4237 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.228, \mu_R^2=1.228 as(t)=0.4307 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.165, \mu_R^2=1.165 as(t)=0.4406 } CF_QCD::Coupling(pol=0) { t=1.15, \mu_R^2=1.15 as(t)=0.4432 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.111, \mu_R^2=1.111 as(t)=0.4501 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.1, \mu_R^2=1.1 as(t)=0.4521 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.072, \mu_R^2=1.072 as(t)=0.4576 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.041, \mu_R^2=1.041 as(t)=0.464 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9834, \mu_R^2=0.9834 as(t)=0.477 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9325, \mu_R^2=0.9325 as(t)=0.49 } CF_QCD::Coupling(pol=0) { t=0.7961, \mu_R^2=0.7961 as(t)=0.5348 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7175, \mu_R^2=0.7175 as(t)=0.5705 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7075, \mu_R^2=0.7075 as(t)=0.5758 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6551, \mu_R^2=0.6551 as(t)=0.6072 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6155, \mu_R^2=0.6155 as(t)=0.6361 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6049, \mu_R^2=0.6049 as(t)=0.6448 } CF_QCD::Coupling(pol=0) { t=0.5815, \mu_R^2=0.5815 as(t)=0.6656 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5614, \mu_R^2=0.5614 as(t)=0.6857 } CF_QCD::Coupling(pol=0) { t=0.5377, \mu_R^2=0.5377 as(t)=0.7125 } CF_QCD::Coupling(pol=0) { t=0.5279, \mu_R^2=0.5279 as(t)=0.7248 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5214, \mu_R^2=0.5214 as(t)=0.7332 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.517, \mu_R^2=0.517 as(t)=0.7392 } CF_QCD::Coupling(pol=0) { t=0.4486, \mu_R^2=0.4486 as(t)=0.8606 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4406, \mu_R^2=0.4406 as(t)=0.8796 } CF_QCD::Coupling(pol=0) { t=46.9, \mu_R^2=46.9 as(t)=0.1954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.35, \mu_R^2=19.35 as(t)=0.221 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.76, \mu_R^2=11.76 as(t)=0.2409 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.461, \mu_R^2=7.461 as(t)=0.2626 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.881, \mu_R^2=6.881 as(t)=0.267 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.821, \mu_R^2=5.821 as(t)=0.2764 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.276, \mu_R^2=4.276 as(t)=0.2959 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.843, \mu_R^2=3.843 as(t)=0.3034 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.055, \mu_R^2=3.055 as(t)=0.3209 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.053, \mu_R^2=3.053 as(t)=0.3209 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.302, \mu_R^2=2.302 as(t)=0.3459 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.024, \mu_R^2=2.024 as(t)=0.3588 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.831, \mu_R^2=1.831 as(t)=0.3697 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.406, \mu_R^2=1.406 as(t)=0.4073 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.398, \mu_R^2=1.398 as(t)=0.4083 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.236, \mu_R^2=1.236 as(t)=0.4295 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9916, \mu_R^2=0.9916 as(t)=0.475 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9189, \mu_R^2=0.9189 as(t)=0.4938 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8954, \mu_R^2=0.8954 as(t)=0.5006 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8563, \mu_R^2=0.8563 as(t)=0.5129 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7978, \mu_R^2=0.7978 as(t)=0.5341 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6823, \mu_R^2=0.6823 as(t)=0.59 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6759, \mu_R^2=0.6759 as(t)=0.5939 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6537, \mu_R^2=0.6537 as(t)=0.6081 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5191, \mu_R^2=0.5191 as(t)=0.7364 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4492, \mu_R^2=0.4492 as(t)=0.8594 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=107.1, \mu_R^2=107.1 as(t)=0.1766 } CF_QCD::Coupling(pol=0) { t=105.1, \mu_R^2=105.1 as(t)=0.177 } CF_QCD::Coupling(pol=0) { t=83.1, \mu_R^2=83.1 as(t)=0.182 } CF_QCD::Coupling(pol=0) { t=81.68, \mu_R^2=81.68 as(t)=0.1824 } CF_QCD::Coupling(pol=0) { t=79.9, \mu_R^2=79.9 as(t)=0.1829 } CF_QCD::Coupling(pol=0) { t=78.22, \mu_R^2=78.22 as(t)=0.1833 } CF_QCD::Coupling(pol=0) { t=76.03, \mu_R^2=76.03 as(t)=0.184 } CF_QCD::Coupling(pol=0) { t=71.37, \mu_R^2=71.37 as(t)=0.1854 } CF_QCD::Coupling(pol=0) { t=69.86, \mu_R^2=69.86 as(t)=0.1859 } CF_QCD::Coupling(pol=0) { t=67.82, \mu_R^2=67.82 as(t)=0.1865 } CF_QCD::Coupling(pol=0) { t=67.15, \mu_R^2=67.15 as(t)=0.1868 } CF_QCD::Coupling(pol=0) { t=61.76, \mu_R^2=61.76 as(t)=0.1887 } CF_QCD::Coupling(pol=0) { t=41.2, \mu_R^2=41.2 as(t)=0.1987 } CF_QCD::Coupling(pol=0) { t=36.39, \mu_R^2=36.39 as(t)=0.202 } CF_QCD::Coupling(pol=0) { t=30.3, \mu_R^2=30.3 as(t)=0.2071 } CF_QCD::Coupling(pol=0) { t=27.38, \mu_R^2=27.38 as(t)=0.21 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.73, \mu_R^2=25.73 as(t)=0.2118 } CF_QCD::Coupling(pol=0) { t=27.27, \mu_R^2=27.27 as(t)=0.2101 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=61.38, \mu_R^2=61.38 as(t)=0.1888 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.28, \mu_R^2=22.28 as(t)=0.216 } CF_QCD::Coupling(pol=0) { t=21.74, \mu_R^2=21.74 as(t)=0.2169 } CF_QCD::Coupling(pol=0) { t=20.92, \mu_R^2=20.92 as(t)=0.2182 } CF_QCD::Coupling(pol=0) { t=19.67, \mu_R^2=19.67 as(t)=0.2204 } CF_QCD::Coupling(pol=0) { t=19.06, \mu_R^2=19.06 as(t)=0.2216 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=18.93, \mu_R^2=18.93 as(t)=0.2218 } CF_QCD::Coupling(pol=0) { t=17.62, \mu_R^2=17.62 as(t)=0.2245 } CF_QCD::Coupling(pol=0) { t=16.88, \mu_R^2=16.88 as(t)=0.2261 } CF_QCD::Coupling(pol=0) { t=16.68, \mu_R^2=16.68 as(t)=0.2266 } CF_QCD::Coupling(pol=0) { t=16.02, \mu_R^2=16.02 as(t)=0.2281 } CF_QCD::Coupling(pol=0) { t=14.45, \mu_R^2=14.45 as(t)=0.2322 } CF_QCD::Coupling(pol=0) { t=14.01, \mu_R^2=14.01 as(t)=0.2335 } CF_QCD::Coupling(pol=0) { t=13.82, \mu_R^2=13.82 as(t)=0.234 } CF_QCD::Coupling(pol=0) { t=13.24, \mu_R^2=13.24 as(t)=0.2358 } CF_QCD::Coupling(pol=0) { t=13.09, \mu_R^2=13.09 as(t)=0.2363 } CF_QCD::Coupling(pol=0) { t=12.62, \mu_R^2=12.62 as(t)=0.2378 } CF_QCD::Coupling(pol=0) { t=12.37, \mu_R^2=12.37 as(t)=0.2387 } CF_QCD::Coupling(pol=0) { t=11.78, \mu_R^2=11.78 as(t)=0.2408 } CF_QCD::Coupling(pol=0) { t=10.88, \mu_R^2=10.88 as(t)=0.2443 } CF_QCD::Coupling(pol=0) { t=10.78, \mu_R^2=10.78 as(t)=0.2447 } CF_QCD::Coupling(pol=0) { t=10.77, \mu_R^2=10.77 as(t)=0.2447 } CF_QCD::Coupling(pol=0) { t=10.49, \mu_R^2=10.49 as(t)=0.246 } CF_QCD::Coupling(pol=0) { t=10.24, \mu_R^2=10.24 as(t)=0.247 } CF_QCD::Coupling(pol=0) { t=8.737, \mu_R^2=8.737 as(t)=0.2546 } CF_QCD::Coupling(pol=0) { t=7.682, \mu_R^2=7.682 as(t)=0.2611 } CF_QCD::Coupling(pol=0) { t=7.249, \mu_R^2=7.249 as(t)=0.2642 } CF_QCD::Coupling(pol=0) { t=6.89, \mu_R^2=6.89 as(t)=0.2669 } CF_QCD::Coupling(pol=0) { t=6.74, \mu_R^2=6.74 as(t)=0.2681 } CF_QCD::Coupling(pol=0) { t=10.29, \mu_R^2=10.29 as(t)=0.2468 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.397, \mu_R^2=5.397 as(t)=0.2809 } CF_QCD::Coupling(pol=0) { t=4.953, \mu_R^2=4.953 as(t)=0.2862 } CF_QCD::Coupling(pol=0) { t=4.23, \mu_R^2=4.23 as(t)=0.2966 } CF_QCD::Coupling(pol=0) { t=4.165, \mu_R^2=4.165 as(t)=0.2977 } CF_QCD::Coupling(pol=0) { t=4.011, \mu_R^2=4.011 as(t)=0.3003 } CF_QCD::Coupling(pol=0) { t=3.74, \mu_R^2=3.74 as(t)=0.3053 } CF_QCD::Coupling(pol=0) { t=3.433, \mu_R^2=3.433 as(t)=0.3117 } CF_QCD::Coupling(pol=0) { t=3.171, \mu_R^2=3.171 as(t)=0.3179 } CF_QCD::Coupling(pol=0) { t=3.098, \mu_R^2=3.098 as(t)=0.3198 } CF_QCD::Coupling(pol=0) { t=3.029, \mu_R^2=3.029 as(t)=0.3216 } CF_QCD::Coupling(pol=0) { t=2.956, \mu_R^2=2.956 as(t)=0.3236 } CF_QCD::Coupling(pol=0) { t=2.779, \mu_R^2=2.779 as(t)=0.3288 } CF_QCD::Coupling(pol=0) { t=2.671, \mu_R^2=2.671 as(t)=0.3322 } CF_QCD::Coupling(pol=0) { t=2.176, \mu_R^2=2.176 as(t)=0.3514 } CF_QCD::Coupling(pol=0) { t=2.11, \mu_R^2=2.11 as(t)=0.3545 } CF_QCD::Coupling(pol=0) { t=2.042, \mu_R^2=2.042 as(t)=0.3579 } CF_QCD::Coupling(pol=0) { t=1.962, \mu_R^2=1.962 as(t)=0.3611 } CF_QCD::Coupling(pol=0) { t=1.927, \mu_R^2=1.927 as(t)=0.3633 } CF_QCD::Coupling(pol=0) { t=1.901, \mu_R^2=1.901 as(t)=0.3649 } CF_QCD::Coupling(pol=0) { t=1.804, \mu_R^2=1.804 as(t)=0.3715 } CF_QCD::Coupling(pol=0) { t=1.795, \mu_R^2=1.795 as(t)=0.3722 } CF_QCD::Coupling(pol=0) { t=1.769, \mu_R^2=1.769 as(t)=0.3741 } CF_QCD::Coupling(pol=0) { t=1.755, \mu_R^2=1.755 as(t)=0.3751 } CF_QCD::Coupling(pol=0) { t=1.696, \mu_R^2=1.696 as(t)=0.3797 } CF_QCD::Coupling(pol=0) { t=1.653, \mu_R^2=1.653 as(t)=0.3832 } CF_QCD::Coupling(pol=0) { t=1.566, \mu_R^2=1.566 as(t)=0.3909 } CF_QCD::Coupling(pol=0) { t=1.481, \mu_R^2=1.481 as(t)=0.3992 } CF_QCD::Coupling(pol=0) { t=1.463, \mu_R^2=1.463 as(t)=0.4011 } CF_QCD::Coupling(pol=0) { t=1.416, \mu_R^2=1.416 as(t)=0.4062 } CF_QCD::Coupling(pol=0) { t=1.413, \mu_R^2=1.413 as(t)=0.4065 } CF_QCD::Coupling(pol=0) { t=1.36, \mu_R^2=1.36 as(t)=0.4128 } CF_QCD::Coupling(pol=0) { t=1.327, \mu_R^2=1.327 as(t)=0.4169 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.283, \mu_R^2=1.283 as(t)=0.4227 } CF_QCD::Coupling(pol=0) { t=1.238, \mu_R^2=1.238 as(t)=0.4292 } CF_QCD::Coupling(pol=0) { t=1.231, \mu_R^2=1.231 as(t)=0.4302 } CF_QCD::Coupling(pol=0) { t=1.219, \mu_R^2=1.219 as(t)=0.432 } CF_QCD::Coupling(pol=0) { t=1.198, \mu_R^2=1.198 as(t)=0.4352 } CF_QCD::Coupling(pol=0) { t=1.195, \mu_R^2=1.195 as(t)=0.4357 } CF_QCD::Coupling(pol=0) { t=1.191, \mu_R^2=1.191 as(t)=0.4364 } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4398 } CF_QCD::Coupling(pol=0) { t=1.11, \mu_R^2=1.11 as(t)=0.4503 } CF_QCD::Coupling(pol=0) { t=1.001, \mu_R^2=1.001 as(t)=0.4728 } CF_QCD::Coupling(pol=0) { t=0.9926, \mu_R^2=0.9926 as(t)=0.4748 } CF_QCD::Coupling(pol=0) { t=0.9615, \mu_R^2=0.9615 as(t)=0.4824 } CF_QCD::Coupling(pol=0) { t=0.9318, \mu_R^2=0.9318 as(t)=0.4902 } CF_QCD::Coupling(pol=0) { t=0.9306, \mu_R^2=0.9306 as(t)=0.4905 } CF_QCD::Coupling(pol=0) { t=0.8853, \mu_R^2=0.8853 as(t)=0.5037 } CF_QCD::Coupling(pol=0) { t=0.8722, \mu_R^2=0.8722 as(t)=0.5077 } CF_QCD::Coupling(pol=0) { t=0.849, \mu_R^2=0.849 as(t)=0.5154 } CF_QCD::Coupling(pol=0) { t=0.7828, \mu_R^2=0.7828 as(t)=0.5402 } CF_QCD::Coupling(pol=0) { t=0.7741, \mu_R^2=0.7741 as(t)=0.5439 } CF_QCD::Coupling(pol=0) { t=120.2, \mu_R^2=120.2 as(t)=0.1743 } CF_QCD::Coupling(pol=0) { t=87.95, \mu_R^2=87.95 as(t)=0.1808 } CF_QCD::Coupling(pol=0) { t=85.61, \mu_R^2=85.61 as(t)=0.1814 } CF_QCD::Coupling(pol=0) { t=76.2, \mu_R^2=76.2 as(t)=0.1839 } CF_QCD::Coupling(pol=0) { t=58.25, \mu_R^2=58.25 as(t)=0.1901 } CF_QCD::Coupling(pol=0) { t=55.29, \mu_R^2=55.29 as(t)=0.1913 } CF_QCD::Coupling(pol=0) { t=42.94, \mu_R^2=42.94 as(t)=0.1976 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=33.4, \mu_R^2=33.4 as(t)=0.2043 } CF_QCD::Coupling(pol=0) { t=24.67, \mu_R^2=24.67 as(t)=0.2131 } CF_QCD::Coupling(pol=0) { t=96.82, \mu_R^2=96.82 as(t)=0.1787 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=89.54, \mu_R^2=89.54 as(t)=0.1804 } CF_QCD::Coupling(pol=0) { t=87.13, \mu_R^2=87.13 as(t)=0.181 } CF_QCD::Coupling(pol=0) { t=78.16, \mu_R^2=78.16 as(t)=0.1833 } CF_QCD::Coupling(pol=0) { t=57.29, \mu_R^2=57.29 as(t)=0.1905 } CF_QCD::Coupling(pol=0) { t=55.64, \mu_R^2=55.64 as(t)=0.1912 } CF_QCD::Coupling(pol=0) { t=20.34, \mu_R^2=20.34 as(t)=0.2192 } CF_QCD::Coupling(pol=0) { t=17.44, \mu_R^2=17.44 as(t)=0.2249 } CF_QCD::Coupling(pol=0) { t=15, \mu_R^2=15 as(t)=0.2307 } CF_QCD::Coupling(pol=0) { t=11.73, \mu_R^2=11.73 as(t)=0.241 } CF_QCD::Coupling(pol=0) { t=10.91, \mu_R^2=10.91 as(t)=0.2442 } CF_QCD::Coupling(pol=0) { t=9.661, \mu_R^2=9.661 as(t)=0.2498 } CF_QCD::Coupling(pol=0) { t=8.223, \mu_R^2=8.223 as(t)=0.2576 } CF_QCD::Coupling(pol=0) { t=7.543, \mu_R^2=7.543 as(t)=0.2621 } CF_QCD::Coupling(pol=0) { t=6.689, \mu_R^2=6.689 as(t)=0.2685 } CF_QCD::Coupling(pol=0) { t=4.723, \mu_R^2=4.723 as(t)=0.2893 } CF_QCD::Coupling(pol=0) { t=4.353, \mu_R^2=4.353 as(t)=0.2947 } CF_QCD::Coupling(pol=0) { t=3.62, \mu_R^2=3.62 as(t)=0.3077 } CF_QCD::Coupling(pol=0) { t=3.262, \mu_R^2=3.262 as(t)=0.3157 } CF_QCD::Coupling(pol=0) { t=60, \mu_R^2=60 as(t)=0.1894 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=59.26, \mu_R^2=59.26 as(t)=0.1897 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=57.84, \mu_R^2=57.84 as(t)=0.1902 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=56.29, \mu_R^2=56.29 as(t)=0.1909 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=54.48, \mu_R^2=54.48 as(t)=0.1917 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=53.78, \mu_R^2=53.78 as(t)=0.192 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=50.06, \mu_R^2=50.06 as(t)=0.1938 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=47.92, \mu_R^2=47.92 as(t)=0.1948 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=46.8, \mu_R^2=46.8 as(t)=0.1954 } CF_QCD::Coupling(pol=0) { t=44.26, \mu_R^2=44.26 as(t)=0.1968 } CF_QCD::Coupling(pol=0) { t=43.94, \mu_R^2=43.94 as(t)=0.197 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=43.91, \mu_R^2=43.91 as(t)=0.197 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=43.37, \mu_R^2=43.37 as(t)=0.1974 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=41.92, \mu_R^2=41.92 as(t)=0.1982 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=37.16, \mu_R^2=37.16 as(t)=0.2014 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=37.01, \mu_R^2=37.01 as(t)=0.2015 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=36.64, \mu_R^2=36.64 as(t)=0.2018 } CF_QCD::Coupling(pol=0) { t=36.27, \mu_R^2=36.27 as(t)=0.2021 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=34.7, \mu_R^2=34.7 as(t)=0.2033 } CF_QCD::Coupling(pol=0) { t=33.85, \mu_R^2=33.85 as(t)=0.204 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=32.56, \mu_R^2=32.56 as(t)=0.205 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.83, \mu_R^2=31.83 as(t)=0.2057 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.24, \mu_R^2=31.24 as(t)=0.2062 } CF_QCD::Coupling(pol=0) { t=27.7, \mu_R^2=27.7 as(t)=0.2096 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=26.66, \mu_R^2=26.66 as(t)=0.2108 } CF_QCD::Coupling(pol=0) { t=26.13, \mu_R^2=26.13 as(t)=0.2114 } CF_QCD::Coupling(pol=0) { t=25.16, \mu_R^2=25.16 as(t)=0.2125 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=25.15, \mu_R^2=25.15 as(t)=0.2125 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=24.57, \mu_R^2=24.57 as(t)=0.2132 } CF_QCD::Coupling(pol=0) { t=24.37, \mu_R^2=24.37 as(t)=0.2134 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.74, \mu_R^2=22.74 as(t)=0.2153 } CF_QCD::Coupling(pol=0) { t=22.03, \mu_R^2=22.03 as(t)=0.2164 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=20.91, \mu_R^2=20.91 as(t)=0.2182 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=79.6, \mu_R^2=79.6 as(t)=0.1829 } CF_QCD::Coupling(pol=0) { t=18.8, \mu_R^2=18.8 as(t)=0.2221 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.66, \mu_R^2=17.66 as(t)=0.2244 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.46, \mu_R^2=16.46 as(t)=0.2271 } CF_QCD::Coupling(pol=0) { t=15.87, \mu_R^2=15.87 as(t)=0.2285 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.68, \mu_R^2=15.68 as(t)=0.229 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.18, \mu_R^2=15.18 as(t)=0.2302 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.01, \mu_R^2=15.01 as(t)=0.2307 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.76, \mu_R^2=14.76 as(t)=0.2313 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.13, \mu_R^2=14.13 as(t)=0.2331 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.77, \mu_R^2=13.77 as(t)=0.2342 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.67, \mu_R^2=12.67 as(t)=0.2376 } CF_QCD::Coupling(pol=0) { t=12.65, \mu_R^2=12.65 as(t)=0.2377 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.11, \mu_R^2=12.11 as(t)=0.2396 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.05, \mu_R^2=12.05 as(t)=0.2398 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.81, \mu_R^2=11.81 as(t)=0.2407 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.93, \mu_R^2=10.93 as(t)=0.2441 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.57, \mu_R^2=10.57 as(t)=0.2456 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.46, \mu_R^2=10.46 as(t)=0.2461 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.33, \mu_R^2=10.33 as(t)=0.2466 } CF_QCD::Coupling(pol=0) { t=9.833, \mu_R^2=9.833 as(t)=0.2489 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.919, \mu_R^2=7.919 as(t)=0.2595 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.749, \mu_R^2=7.749 as(t)=0.2607 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.971, \mu_R^2=6.971 as(t)=0.2663 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.559, \mu_R^2=6.559 as(t)=0.2696 } CF_QCD::Coupling(pol=0) { t=6.071, \mu_R^2=6.071 as(t)=0.274 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.065, \mu_R^2=6.065 as(t)=0.274 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.013, \mu_R^2=6.013 as(t)=0.2745 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.565, \mu_R^2=5.565 as(t)=0.2791 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.522, \mu_R^2=5.522 as(t)=0.2795 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.336, \mu_R^2=5.336 as(t)=0.2816 } CF_QCD::Coupling(pol=0) { t=4.376, \mu_R^2=4.376 as(t)=0.2943 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.043, \mu_R^2=4.043 as(t)=0.2998 } CF_QCD::Coupling(pol=0) { t=3.48, \mu_R^2=3.48 as(t)=0.3107 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.968, \mu_R^2=2.968 as(t)=0.3233 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.76, \mu_R^2=2.76 as(t)=0.3294 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.695, \mu_R^2=2.695 as(t)=0.3315 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.666, \mu_R^2=2.666 as(t)=0.3324 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.56, \mu_R^2=2.56 as(t)=0.336 } CF_QCD::Coupling(pol=0) { t=2.151, \mu_R^2=2.151 as(t)=0.3526 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.084, \mu_R^2=2.084 as(t)=0.3558 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.07, \mu_R^2=2.07 as(t)=0.3565 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.055, \mu_R^2=2.055 as(t)=0.3572 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.967, \mu_R^2=1.967 as(t)=0.3608 } CF_QCD::Coupling(pol=0) { t=1.916, \mu_R^2=1.916 as(t)=0.364 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.846, \mu_R^2=1.846 as(t)=0.3686 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.778, \mu_R^2=1.778 as(t)=0.3734 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.775, \mu_R^2=1.775 as(t)=0.3736 } CF_QCD::Coupling(pol=0) { t=1.729, \mu_R^2=1.729 as(t)=0.3771 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.648, \mu_R^2=1.648 as(t)=0.3837 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.741, \mu_R^2=6.741 as(t)=0.2681 } CF_QCD::Coupling(pol=0) { t=1.628, \mu_R^2=1.628 as(t)=0.3853 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.592, \mu_R^2=1.592 as(t)=0.3886 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.59, \mu_R^2=1.59 as(t)=0.3887 } CF_QCD::Coupling(pol=0) { t=1.544, \mu_R^2=1.544 as(t)=0.393 } CF_QCD::Coupling(pol=0) { t=1.514, \mu_R^2=1.514 as(t)=0.3959 } CF_QCD::Coupling(pol=0) { t=1.335, \mu_R^2=1.335 as(t)=0.4159 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.326, \mu_R^2=1.326 as(t)=0.4171 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.312, \mu_R^2=1.312 as(t)=0.4189 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.311, \mu_R^2=1.311 as(t)=0.419 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.286, \mu_R^2=1.286 as(t)=0.4223 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.201, \mu_R^2=1.201 as(t)=0.4347 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.192, \mu_R^2=1.192 as(t)=0.4363 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.122, \mu_R^2=1.122 as(t)=0.4481 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9931, \mu_R^2=0.9931 as(t)=0.4747 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9831, \mu_R^2=0.9831 as(t)=0.477 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9629, \mu_R^2=0.9629 as(t)=0.482 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9043, \mu_R^2=0.9043 as(t)=0.498 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.004, \mu_R^2=3.004 as(t)=0.3223 } CF_QCD::Coupling(pol=0) { t=0.8008, \mu_R^2=0.8008 as(t)=0.5329 } CF_QCD::Coupling(pol=0) { t=0.7802, \mu_R^2=0.7802 as(t)=0.5413 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6775, \mu_R^2=0.6775 as(t)=0.5929 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6701, \mu_R^2=0.6701 as(t)=0.5975 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6416, \mu_R^2=0.6416 as(t)=0.6165 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6281, \mu_R^2=0.6281 as(t)=0.6263 } CF_QCD::Coupling(pol=0) { t=0.6173, \mu_R^2=0.6173 as(t)=0.6347 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6119, \mu_R^2=0.6119 as(t)=0.6389 } CF_QCD::Coupling(pol=0) { t=0.6003, \mu_R^2=0.6003 as(t)=0.6486 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5249, \mu_R^2=0.5249 as(t)=0.7287 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5122, \mu_R^2=0.5122 as(t)=0.746 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4918, \mu_R^2=0.4918 as(t)=0.7771 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4913, \mu_R^2=0.4913 as(t)=0.7779 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4765, \mu_R^2=0.4765 as(t)=0.8037 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4672, \mu_R^2=0.4672 as(t)=0.8213 } CF_QCD::Coupling(pol=0) { t=0.4431, \mu_R^2=0.4431 as(t)=0.8736 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3853, \mu_R^2=0.3853 as(t)=1 } CF_QCD::Coupling(pol=0) { t=63.83, \mu_R^2=63.83 as(t)=0.1879 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=54.68, \mu_R^2=54.68 as(t)=0.1916 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=46.95, \mu_R^2=46.95 as(t)=0.1954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.7, \mu_R^2=31.7 as(t)=0.2058 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.76, \mu_R^2=16.76 as(t)=0.2264 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.054, \mu_R^2=8.054 as(t)=0.2587 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.515, \mu_R^2=6.515 as(t)=0.27 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.781, \mu_R^2=5.781 as(t)=0.2768 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.306, \mu_R^2=4.306 as(t)=0.2954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.973, \mu_R^2=3.973 as(t)=0.301 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.007, \mu_R^2=3.007 as(t)=0.3222 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.922, \mu_R^2=2.922 as(t)=0.3246 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.922, \mu_R^2=2.922 as(t)=0.3246 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.053, \mu_R^2=2.053 as(t)=0.3573 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.918, \mu_R^2=1.918 as(t)=0.3638 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.767, \mu_R^2=1.767 as(t)=0.3742 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.518, \mu_R^2=1.518 as(t)=0.3955 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.106, \mu_R^2=1.106 as(t)=0.451 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.081, \mu_R^2=1.081 as(t)=0.4557 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9794, \mu_R^2=0.9794 as(t)=0.478 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9735, \mu_R^2=0.9735 as(t)=0.4794 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9377, \mu_R^2=0.9377 as(t)=0.4886 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9113, \mu_R^2=0.9113 as(t)=0.4959 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8123, \mu_R^2=0.8123 as(t)=0.5285 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7808, \mu_R^2=0.7808 as(t)=0.541 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5512, \mu_R^2=0.5512 as(t)=0.6968 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5151, \mu_R^2=0.5151 as(t)=0.7419 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3934, \mu_R^2=0.3934 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3828, \mu_R^2=0.3828 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=115.2, \mu_R^2=115.2 as(t)=0.1752 } CF_QCD::Coupling(pol=0) { t=112.7, \mu_R^2=112.7 as(t)=0.1756 } CF_QCD::Coupling(pol=0) { t=111, \mu_R^2=111 as(t)=0.1759 } CF_QCD::Coupling(pol=0) { t=105.2, \mu_R^2=105.2 as(t)=0.177 } CF_QCD::Coupling(pol=0) { t=104.8, \mu_R^2=104.8 as(t)=0.1771 } CF_QCD::Coupling(pol=0) { t=102.2, \mu_R^2=102.2 as(t)=0.1776 } CF_QCD::Coupling(pol=0) { t=84.63, \mu_R^2=84.63 as(t)=0.1816 } CF_QCD::Coupling(pol=0) { t=77.35, \mu_R^2=77.35 as(t)=0.1836 } CF_QCD::Coupling(pol=0) { t=72.29, \mu_R^2=72.29 as(t)=0.1851 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=66.87, \mu_R^2=66.87 as(t)=0.1868 } CF_QCD::Coupling(pol=0) { t=60.72, \mu_R^2=60.72 as(t)=0.1891 } CF_QCD::Coupling(pol=0) { t=59.22, \mu_R^2=59.22 as(t)=0.1897 } CF_QCD::Coupling(pol=0) { t=57.29, \mu_R^2=57.29 as(t)=0.1905 } CF_QCD::Coupling(pol=0) { t=54.98, \mu_R^2=54.98 as(t)=0.1915 } CF_QCD::Coupling(pol=0) { t=52.08, \mu_R^2=52.08 as(t)=0.1928 } CF_QCD::Coupling(pol=0) { t=51.18, \mu_R^2=51.18 as(t)=0.1932 } CF_QCD::Coupling(pol=0) { t=50.43, \mu_R^2=50.43 as(t)=0.1936 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=53.54, \mu_R^2=53.54 as(t)=0.1921 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=44.61, \mu_R^2=44.61 as(t)=0.1966 } CF_QCD::Coupling(pol=0) { t=40.04, \mu_R^2=40.04 as(t)=0.1994 } Emission G -> G G at kt = 9.929( 0 .. 17.4 ), z = 0.887, y = 0.03468 for Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(1)]: G : (90.48,34.98,-4.526,-83.32) 8.539e-06 0 (500,603)[500,603] (Final state parton) Colour partners (0x7ffbb5d8b430,0x7ffbb5cd5a40) k_T start : 17.4 k_T test : 9.929 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d8b430 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (84.96,-69.71,3.152,48.46) 1.81e-05 0 (604,500)[604,500] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb5cb9580) k_T start : 17.4 k_T test : 7.793 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 7 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=18.87, \mu_R^2=18.87 as(t)=0.2219 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=18.61, \mu_R^2=18.61 as(t)=0.2225 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=18.48, \mu_R^2=18.48 as(t)=0.2227 } CF_QCD::Coupling(pol=0) { t=16.55, \mu_R^2=16.55 as(t)=0.2269 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.12, \mu_R^2=16.12 as(t)=0.2279 } CF_QCD::Coupling(pol=0) { t=15.05, \mu_R^2=15.05 as(t)=0.2306 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.77, \mu_R^2=14.77 as(t)=0.2313 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.29, \mu_R^2=14.29 as(t)=0.2327 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.7, \mu_R^2=13.7 as(t)=0.2344 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.23, \mu_R^2=13.23 as(t)=0.2358 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.85, \mu_R^2=12.85 as(t)=0.237 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.49, \mu_R^2=12.49 as(t)=0.2383 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.21, \mu_R^2=12.21 as(t)=0.2392 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.9, \mu_R^2=11.9 as(t)=0.2403 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.02, \mu_R^2=11.02 as(t)=0.2437 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.768, \mu_R^2=9.768 as(t)=0.2492 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.953, \mu_R^2=8.953 as(t)=0.2534 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.308, \mu_R^2=8.308 as(t)=0.2571 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.247, \mu_R^2=7.247 as(t)=0.2642 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.157, \mu_R^2=7.157 as(t)=0.2648 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.006, \mu_R^2=7.006 as(t)=0.266 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.364, \mu_R^2=6.364 as(t)=0.2713 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.092, \mu_R^2=4.092 as(t)=0.2989 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.015, \mu_R^2=4.015 as(t)=0.3002 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.005, \mu_R^2=4.005 as(t)=0.3004 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.835, \mu_R^2=3.835 as(t)=0.3035 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.765, \mu_R^2=3.765 as(t)=0.3048 } CF_QCD::Coupling(pol=0) { t=3.058, \mu_R^2=3.058 as(t)=0.3208 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.045, \mu_R^2=3.045 as(t)=0.3212 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.023, \mu_R^2=3.023 as(t)=0.3217 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.581, \mu_R^2=2.581 as(t)=0.3353 } CF_QCD::Coupling(pol=0) { t=2.559, \mu_R^2=2.559 as(t)=0.3361 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.126, \mu_R^2=2.126 as(t)=0.3538 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.95, \mu_R^2=1.95 as(t)=0.3618 } CF_QCD::Coupling(pol=0) { t=1.864, \mu_R^2=1.864 as(t)=0.3674 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.4, \mu_R^2=1.4 as(t)=0.4081 } CF_QCD::Coupling(pol=0) { t=1.389, \mu_R^2=1.389 as(t)=0.4093 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.295, \mu_R^2=1.295 as(t)=0.4212 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.283, \mu_R^2=1.283 as(t)=0.4227 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.208, \mu_R^2=1.208 as(t)=0.4337 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.159, \mu_R^2=1.159 as(t)=0.4415 } CF_QCD::Coupling(pol=0) { t=1.156, \mu_R^2=1.156 as(t)=0.4421 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6943, \mu_R^2=0.6943 as(t)=0.5831 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.596, \mu_R^2=0.596 as(t)=0.6524 } CF_QCD::Coupling(pol=0) { t=0.5896, \mu_R^2=0.5896 as(t)=0.6581 } CF_QCD::Coupling(pol=0) { t=0.5622, \mu_R^2=0.5622 as(t)=0.6849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5608, \mu_R^2=0.5608 as(t)=0.6864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5528, \mu_R^2=0.5528 as(t)=0.695 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5372, \mu_R^2=0.5372 as(t)=0.7131 } CF_QCD::Coupling(pol=0) { t=2.227, \mu_R^2=2.227 as(t)=0.3491 } CF_QCD::Coupling(pol=0) { t=0.5205, \mu_R^2=0.5205 as(t)=0.7345 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4995, \mu_R^2=0.4995 as(t)=0.7649 } CF_QCD::Coupling(pol=0) { t=6.28, \mu_R^2=6.28 as(t)=0.272 } CF_QCD::Coupling(pol=0) { t=0.4194, \mu_R^2=0.4194 as(t)=0.9368 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3885, \mu_R^2=0.3885 as(t)=1 } CF_QCD::Coupling(pol=0) { t=36.87, \mu_R^2=36.87 as(t)=0.2016 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.58, \mu_R^2=10.58 as(t)=0.2456 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.201, \mu_R^2=6.201 as(t)=0.2728 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.724, \mu_R^2=4.724 as(t)=0.2893 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.564, \mu_R^2=4.564 as(t)=0.2915 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.439, \mu_R^2=3.439 as(t)=0.3116 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.985, \mu_R^2=2.985 as(t)=0.3228 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.482, \mu_R^2=2.482 as(t)=0.3388 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.957, \mu_R^2=1.957 as(t)=0.3614 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.855, \mu_R^2=1.855 as(t)=0.368 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.549, \mu_R^2=1.549 as(t)=0.3925 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.263, \mu_R^2=1.263 as(t)=0.4256 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.016, \mu_R^2=1.016 as(t)=0.4693 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9742, \mu_R^2=0.9742 as(t)=0.4792 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9514, \mu_R^2=0.9514 as(t)=0.485 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8889, \mu_R^2=0.8889 as(t)=0.5025 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7189, \mu_R^2=0.7189 as(t)=0.5698 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6289, \mu_R^2=0.6289 as(t)=0.6257 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6263, \mu_R^2=0.6263 as(t)=0.6276 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5658, \mu_R^2=0.5658 as(t)=0.6811 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4278, \mu_R^2=0.4278 as(t)=0.9128 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.22, \mu_R^2=39.22 as(t)=0.2 } CF_QCD::Coupling(pol=0) { t=34.76, \mu_R^2=34.76 as(t)=0.2032 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=33.87, \mu_R^2=33.87 as(t)=0.2039 } CF_QCD::Coupling(pol=0) { t=33.86, \mu_R^2=33.86 as(t)=0.2039 } CF_QCD::Coupling(pol=0) { t=33.84, \mu_R^2=33.84 as(t)=0.204 } CF_QCD::Coupling(pol=0) { t=32.77, \mu_R^2=32.77 as(t)=0.2049 } CF_QCD::Coupling(pol=0) { t=32.45, \mu_R^2=32.45 as(t)=0.2051 } CF_QCD::Coupling(pol=0) { t=31.71, \mu_R^2=31.71 as(t)=0.2058 } CF_QCD::Coupling(pol=0) { t=31.54, \mu_R^2=31.54 as(t)=0.2059 } CF_QCD::Coupling(pol=0) { t=30.84, \mu_R^2=30.84 as(t)=0.2066 } CF_QCD::Coupling(pol=0) { t=30.21, \mu_R^2=30.21 as(t)=0.2071 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=27.98, \mu_R^2=27.98 as(t)=0.2093 } CF_QCD::Coupling(pol=0) { t=23.91, \mu_R^2=23.91 as(t)=0.214 } CF_QCD::Coupling(pol=0) { t=23.47, \mu_R^2=23.47 as(t)=0.2146 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=22.02, \mu_R^2=22.02 as(t)=0.2164 } CF_QCD::Coupling(pol=0) { t=21.37, \mu_R^2=21.37 as(t)=0.2175 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.15, \mu_R^2=19.15 as(t)=0.2214 } CF_QCD::Coupling(pol=0) { t=18.99, \mu_R^2=18.99 as(t)=0.2217 } CF_QCD::Coupling(pol=0) { t=17.75, \mu_R^2=17.75 as(t)=0.2242 } CF_QCD::Coupling(pol=0) { t=17.63, \mu_R^2=17.63 as(t)=0.2245 } CF_QCD::Coupling(pol=0) { t=17.41, \mu_R^2=17.41 as(t)=0.2249 } CF_QCD::Coupling(pol=0) { t=16.27, \mu_R^2=16.27 as(t)=0.2275 } CF_QCD::Coupling(pol=0) { t=16.01, \mu_R^2=16.01 as(t)=0.2281 } CF_QCD::Coupling(pol=0) { t=15.37, \mu_R^2=15.37 as(t)=0.2297 } CF_QCD::Coupling(pol=0) { t=14.25, \mu_R^2=14.25 as(t)=0.2328 } CF_QCD::Coupling(pol=0) { t=13.85, \mu_R^2=13.85 as(t)=0.2339 } CF_QCD::Coupling(pol=0) { t=13.64, \mu_R^2=13.64 as(t)=0.2345 } CF_QCD::Coupling(pol=0) { t=12.67, \mu_R^2=12.67 as(t)=0.2376 } CF_QCD::Coupling(pol=0) { t=12.23, \mu_R^2=12.23 as(t)=0.2392 } CF_QCD::Coupling(pol=0) { t=11.79, \mu_R^2=11.79 as(t)=0.2407 } CF_QCD::Coupling(pol=0) { t=11.72, \mu_R^2=11.72 as(t)=0.241 } CF_QCD::Coupling(pol=0) { t=11.32, \mu_R^2=11.32 as(t)=0.2425 } CF_QCD::Coupling(pol=0) { t=10.63, \mu_R^2=10.63 as(t)=0.2454 } CF_QCD::Coupling(pol=0) { t=10.53, \mu_R^2=10.53 as(t)=0.2458 } CF_QCD::Coupling(pol=0) { t=10.12, \mu_R^2=10.12 as(t)=0.2476 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.492, \mu_R^2=9.492 as(t)=0.2506 } CF_QCD::Coupling(pol=0) { t=9.416, \mu_R^2=9.416 as(t)=0.251 } CF_QCD::Coupling(pol=0) { t=8.593, \mu_R^2=8.593 as(t)=0.2554 } CF_QCD::Coupling(pol=0) { t=8.502, \mu_R^2=8.502 as(t)=0.256 } CF_QCD::Coupling(pol=0) { t=8.456, \mu_R^2=8.456 as(t)=0.2562 } CF_QCD::Coupling(pol=0) { t=7.587, \mu_R^2=7.587 as(t)=0.2618 } CF_QCD::Coupling(pol=0) { t=7.191, \mu_R^2=7.191 as(t)=0.2646 } CF_QCD::Coupling(pol=0) { t=7.061, \mu_R^2=7.061 as(t)=0.2656 } CF_QCD::Coupling(pol=0) { t=6.486, \mu_R^2=6.486 as(t)=0.2702 } CF_QCD::Coupling(pol=0) { t=5.833, \mu_R^2=5.833 as(t)=0.2763 } CF_QCD::Coupling(pol=0) { t=5.508, \mu_R^2=5.508 as(t)=0.2797 } CF_QCD::Coupling(pol=0) { t=5.477, \mu_R^2=5.477 as(t)=0.28 } CF_QCD::Coupling(pol=0) { t=4.649, \mu_R^2=4.649 as(t)=0.2903 } CF_QCD::Coupling(pol=0) { t=4.559, \mu_R^2=4.559 as(t)=0.2916 } CF_QCD::Coupling(pol=0) { t=4.18, \mu_R^2=4.18 as(t)=0.2974 } CF_QCD::Coupling(pol=0) { t=3.84, \mu_R^2=3.84 as(t)=0.3034 } CF_QCD::Coupling(pol=0) { t=3.78, \mu_R^2=3.78 as(t)=0.3046 } CF_QCD::Coupling(pol=0) { t=3.446, \mu_R^2=3.446 as(t)=0.3114 } CF_QCD::Coupling(pol=0) { t=3.126, \mu_R^2=3.126 as(t)=0.319 } CF_QCD::Coupling(pol=0) { t=3.1, \mu_R^2=3.1 as(t)=0.3197 } CF_QCD::Coupling(pol=0) { t=2.953, \mu_R^2=2.953 as(t)=0.3237 } CF_QCD::Coupling(pol=0) { t=2.826, \mu_R^2=2.826 as(t)=0.3274 } CF_QCD::Coupling(pol=0) { t=2.804, \mu_R^2=2.804 as(t)=0.328 } CF_QCD::Coupling(pol=0) { t=2.646, \mu_R^2=2.646 as(t)=0.3331 } CF_QCD::Coupling(pol=0) { t=2.55, \mu_R^2=2.55 as(t)=0.3364 } CF_QCD::Coupling(pol=0) { t=5.591, \mu_R^2=5.591 as(t)=0.2788 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.422, \mu_R^2=2.422 as(t)=0.3411 } CF_QCD::Coupling(pol=0) { t=2.418, \mu_R^2=2.418 as(t)=0.3413 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.311, \mu_R^2=2.311 as(t)=0.3456 } CF_QCD::Coupling(pol=0) { t=2.263, \mu_R^2=2.263 as(t)=0.3475 } CF_QCD::Coupling(pol=0) { t=2.107, \mu_R^2=2.107 as(t)=0.3546 } CF_QCD::Coupling(pol=0) { t=2.007, \mu_R^2=2.007 as(t)=0.3584 } CF_QCD::Coupling(pol=0) { t=1.95, \mu_R^2=1.95 as(t)=0.3618 } CF_QCD::Coupling(pol=0) { t=1.91, \mu_R^2=1.91 as(t)=0.3644 } CF_QCD::Coupling(pol=0) { t=1.909, \mu_R^2=1.909 as(t)=0.3644 } CF_QCD::Coupling(pol=0) { t=1.902, \mu_R^2=1.902 as(t)=0.3649 } CF_QCD::Coupling(pol=0) { t=1.899, \mu_R^2=1.899 as(t)=0.365 } CF_QCD::Coupling(pol=0) { t=1.756, \mu_R^2=1.756 as(t)=0.3751 } CF_QCD::Coupling(pol=0) { t=1.657, \mu_R^2=1.657 as(t)=0.3829 } CF_QCD::Coupling(pol=0) { t=1.614, \mu_R^2=1.614 as(t)=0.3866 } CF_QCD::Coupling(pol=0) { t=1.605, \mu_R^2=1.605 as(t)=0.3874 } CF_QCD::Coupling(pol=0) { t=1.569, \mu_R^2=1.569 as(t)=0.3906 } CF_QCD::Coupling(pol=0) { t=1.369, \mu_R^2=1.369 as(t)=0.4118 } CF_QCD::Coupling(pol=0) { t=34.99, \mu_R^2=34.99 as(t)=0.2031 } CF_QCD::Coupling(pol=0) { t=17.59, \mu_R^2=17.59 as(t)=0.2246 } CF_QCD::Coupling(pol=0) { t=29.73, \mu_R^2=29.73 as(t)=0.2076 } CF_QCD::Coupling(pol=0) { t=28.63, \mu_R^2=28.63 as(t)=0.2087 } CF_QCD::Coupling(pol=0) { t=27.48, \mu_R^2=27.48 as(t)=0.2099 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=19.09, \mu_R^2=19.09 as(t)=0.2215 } CF_QCD::Coupling(pol=0) { t=18.69, \mu_R^2=18.69 as(t)=0.2223 } CF_QCD::Coupling(pol=0) { t=15.99, \mu_R^2=15.99 as(t)=0.2282 } CF_QCD::Coupling(pol=0) { t=12.37, \mu_R^2=12.37 as(t)=0.2387 } CF_QCD::Coupling(pol=0) { t=10.64, \mu_R^2=10.64 as(t)=0.2453 } CF_QCD::Coupling(pol=0) { t=10.29, \mu_R^2=10.29 as(t)=0.2468 } CF_QCD::Coupling(pol=0) { t=9.782, \mu_R^2=9.782 as(t)=0.2492 } CF_QCD::Coupling(pol=0) { t=9.391, \mu_R^2=9.391 as(t)=0.2511 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.112, \mu_R^2=5.112 as(t)=0.2843 } CF_QCD::Coupling(pol=0) { t=6.465, \mu_R^2=6.465 as(t)=0.2704 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.908, \mu_R^2=4.908 as(t)=0.2868 } CF_QCD::Coupling(pol=0) { t=3.696, \mu_R^2=3.696 as(t)=0.3062 } CF_QCD::Coupling(pol=0) { t=2.968, \mu_R^2=2.968 as(t)=0.3233 } CF_QCD::Coupling(pol=0) { t=2.82, \mu_R^2=2.82 as(t)=0.3276 } CF_QCD::Coupling(pol=0) { t=2.773, \mu_R^2=2.773 as(t)=0.329 } CF_QCD::Coupling(pol=0) { t=19.52, \mu_R^2=19.52 as(t)=0.2207 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.75, \mu_R^2=17.75 as(t)=0.2242 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.26, \mu_R^2=17.26 as(t)=0.2253 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.17, \mu_R^2=17.17 as(t)=0.2255 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.74, \mu_R^2=16.74 as(t)=0.2264 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.82, \mu_R^2=15.82 as(t)=0.2286 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.36, \mu_R^2=15.36 as(t)=0.2298 } CF_QCD::Coupling(pol=0) { t=14.6, \mu_R^2=14.6 as(t)=0.2318 } CF_QCD::Coupling(pol=0) { t=14.3, \mu_R^2=14.3 as(t)=0.2326 } CF_QCD::Coupling(pol=0) { t=13.65, \mu_R^2=13.65 as(t)=0.2345 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.78, \mu_R^2=12.78 as(t)=0.2373 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.74, \mu_R^2=11.74 as(t)=0.2409 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.9, \mu_R^2=10.9 as(t)=0.2442 } CF_QCD::Coupling(pol=0) { t=10.63, \mu_R^2=10.63 as(t)=0.2453 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.08, \mu_R^2=10.08 as(t)=0.2478 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.083, \mu_R^2=9.083 as(t)=0.2527 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.005, \mu_R^2=9.005 as(t)=0.2531 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.004, \mu_R^2=9.004 as(t)=0.2531 } CF_QCD::Coupling(pol=0) { t=8.51, \mu_R^2=8.51 as(t)=0.2559 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.421, \mu_R^2=7.421 as(t)=0.2629 } CF_QCD::Coupling(pol=0) { t=7.4, \mu_R^2=7.4 as(t)=0.2631 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.174, \mu_R^2=7.174 as(t)=0.2647 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.161, \mu_R^2=7.161 as(t)=0.2648 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.674, \mu_R^2=6.674 as(t)=0.2686 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.32, \mu_R^2=17.32 as(t)=0.2251 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.08, \mu_R^2=13.08 as(t)=0.2363 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.482, \mu_R^2=8.482 as(t)=0.2561 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.308, \mu_R^2=8.308 as(t)=0.2571 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.147, \mu_R^2=7.147 as(t)=0.2649 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.253, \mu_R^2=6.253 as(t)=0.2723 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.27, \mu_R^2=5.27 as(t)=0.2824 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.27, \mu_R^2=4.27 as(t)=0.296 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.108, \mu_R^2=4.108 as(t)=0.2986 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=39.49, \mu_R^2=39.49 as(t)=0.1998 } CF_QCD::Coupling(pol=0) { t=37.33, \mu_R^2=37.33 as(t)=0.2013 } CF_QCD::Coupling(pol=0) { t=35.92, \mu_R^2=35.92 as(t)=0.2023 } CF_QCD::Coupling(pol=0) { t=33.94, \mu_R^2=33.94 as(t)=0.2039 } CF_QCD::Coupling(pol=0) { t=33.51, \mu_R^2=33.51 as(t)=0.2042 } CF_QCD::Coupling(pol=0) { t=32.56, \mu_R^2=32.56 as(t)=0.205 } CF_QCD::Coupling(pol=0) { t=28.78, \mu_R^2=28.78 as(t)=0.2085 } CF_QCD::Coupling(pol=0) { t=25.95, \mu_R^2=25.95 as(t)=0.2116 } CF_QCD::Coupling(pol=0) { t=21.83, \mu_R^2=21.83 as(t)=0.2167 } CF_QCD::Coupling(pol=0) { t=20.1, \mu_R^2=20.1 as(t)=0.2196 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=20.03, \mu_R^2=20.03 as(t)=0.2198 } CF_QCD::Coupling(pol=0) { t=19.13, \mu_R^2=19.13 as(t)=0.2214 } CF_QCD::Coupling(pol=0) { t=18.88, \mu_R^2=18.88 as(t)=0.2219 } CF_QCD::Coupling(pol=0) { t=17.8, \mu_R^2=17.8 as(t)=0.2241 } CF_QCD::Coupling(pol=0) { t=16.54, \mu_R^2=16.54 as(t)=0.2269 } CF_QCD::Coupling(pol=0) { t=15.23, \mu_R^2=15.23 as(t)=0.2301 } CF_QCD::Coupling(pol=0) { t=14.44, \mu_R^2=14.44 as(t)=0.2322 } CF_QCD::Coupling(pol=0) { t=14.32, \mu_R^2=14.32 as(t)=0.2326 } CF_QCD::Coupling(pol=0) { t=13.97, \mu_R^2=13.97 as(t)=0.2336 } CF_QCD::Coupling(pol=0) { t=13.54, \mu_R^2=13.54 as(t)=0.2349 } CF_QCD::Coupling(pol=0) { t=13.44, \mu_R^2=13.44 as(t)=0.2352 } CF_QCD::Coupling(pol=0) { t=13.14, \mu_R^2=13.14 as(t)=0.2361 } CF_QCD::Coupling(pol=0) { t=12.39, \mu_R^2=12.39 as(t)=0.2386 } CF_QCD::Coupling(pol=0) { t=11.8, \mu_R^2=11.8 as(t)=0.2407 } CF_QCD::Coupling(pol=0) { t=9.999, \mu_R^2=9.999 as(t)=0.2482 } CF_QCD::Coupling(pol=0) { t=9.796, \mu_R^2=9.796 as(t)=0.2491 } CF_QCD::Coupling(pol=0) { t=9.538, \mu_R^2=9.538 as(t)=0.2504 } CF_QCD::Coupling(pol=0) { t=8.741, \mu_R^2=8.741 as(t)=0.2546 } CF_QCD::Coupling(pol=0) { t=8.611, \mu_R^2=8.611 as(t)=0.2553 } CF_QCD::Coupling(pol=0) { t=7.38, \mu_R^2=7.38 as(t)=0.2632 } CF_QCD::Coupling(pol=0) { t=7.138, \mu_R^2=7.138 as(t)=0.265 } CF_QCD::Coupling(pol=0) { t=7.039, \mu_R^2=7.039 as(t)=0.2657 } CF_QCD::Coupling(pol=0) { t=6.699, \mu_R^2=6.699 as(t)=0.2684 } CF_QCD::Coupling(pol=0) { t=6.113, \mu_R^2=6.113 as(t)=0.2736 } CF_QCD::Coupling(pol=0) { t=5.443, \mu_R^2=5.443 as(t)=0.2804 } CF_QCD::Coupling(pol=0) { t=5.388, \mu_R^2=5.388 as(t)=0.281 } CF_QCD::Coupling(pol=0) { t=5.378, \mu_R^2=5.378 as(t)=0.2811 } CF_QCD::Coupling(pol=0) { t=4.866, \mu_R^2=4.866 as(t)=0.2874 } CF_QCD::Coupling(pol=0) { t=4.762, \mu_R^2=4.762 as(t)=0.2888 } CF_QCD::Coupling(pol=0) { t=4.318, \mu_R^2=4.318 as(t)=0.2952 } CF_QCD::Coupling(pol=0) { t=4.053, \mu_R^2=4.053 as(t)=0.2996 } CF_QCD::Coupling(pol=0) { t=3.737, \mu_R^2=3.737 as(t)=0.3054 } CF_QCD::Coupling(pol=0) { t=3.703, \mu_R^2=3.703 as(t)=0.306 } CF_QCD::Coupling(pol=0) { t=3.605, \mu_R^2=3.605 as(t)=0.308 } CF_QCD::Coupling(pol=0) { t=38.77, \mu_R^2=38.77 as(t)=0.2003 } CF_QCD::Coupling(pol=0) { t=30.46, \mu_R^2=30.46 as(t)=0.2069 } CF_QCD::Coupling(pol=0) { t=27.72, \mu_R^2=27.72 as(t)=0.2096 } CF_QCD::Coupling(pol=0) { t=22.55, \mu_R^2=22.55 as(t)=0.2156 } CF_QCD::Coupling(pol=0) { t=16.54, \mu_R^2=16.54 as(t)=0.2269 } CF_QCD::Coupling(pol=0) { t=15.73, \mu_R^2=15.73 as(t)=0.2288 } CF_QCD::Coupling(pol=0) { t=11.47, \mu_R^2=11.47 as(t)=0.2419 } CF_QCD::Coupling(pol=0) { t=10.56, \mu_R^2=10.56 as(t)=0.2456 } CF_QCD::Coupling(pol=0) { t=6.248, \mu_R^2=6.248 as(t)=0.2723 } CF_QCD::Coupling(pol=0) { t=5.555, \mu_R^2=5.555 as(t)=0.2792 } CF_QCD::Coupling(pol=0) { t=5.247, \mu_R^2=5.247 as(t)=0.2826 } CF_QCD::Coupling(pol=0) { t=3.692, \mu_R^2=3.692 as(t)=0.3063 } Emission G -> G G at kt = 6.58( 0 .. 9.929 ), z = 0.7639, y = 0.0776 for Parton 0x7ffbb5d8b430 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (82.01,-67.29,3.043,46.78) 1.745e-05 0 (604,500)[604,500] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb4a6c7f0) k_T start : 9.929 k_T test : 6.58 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a6c7f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (12.39,2.946,-10.17,-6.436) 5.331e-07 0 (500,608)[500,608] (Final state parton) Colour partners (0x7ffbb5d8b430,0x7ffbb4a14bf0) k_T start : 9.929 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 8 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=7.011, \mu_R^2=7.011 as(t)=0.2659 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.76, \mu_R^2=6.76 as(t)=0.2679 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.626, \mu_R^2=6.626 as(t)=0.269 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.517, \mu_R^2=6.517 as(t)=0.2699 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.255, \mu_R^2=6.255 as(t)=0.2723 } CF_QCD::Coupling(pol=0) { t=6.189, \mu_R^2=6.189 as(t)=0.2729 } CF_QCD::Coupling(pol=0) { t=6.123, \mu_R^2=6.123 as(t)=0.2735 } CF_QCD::Coupling(pol=0) { t=5.668, \mu_R^2=5.668 as(t)=0.278 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.05, \mu_R^2=5.05 as(t)=0.285 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.09, \mu_R^2=16.09 as(t)=0.2279 } CF_QCD::Coupling(pol=0) { t=3.329, \mu_R^2=3.329 as(t)=0.3141 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.196, \mu_R^2=3.196 as(t)=0.3173 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.853, \mu_R^2=2.853 as(t)=0.3266 } CF_QCD::Coupling(pol=0) { t=2.819, \mu_R^2=2.819 as(t)=0.3276 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.728, \mu_R^2=2.728 as(t)=0.3304 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.445, \mu_R^2=2.445 as(t)=0.3402 } CF_QCD::Coupling(pol=0) { t=2.175, \mu_R^2=2.175 as(t)=0.3515 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.107, \mu_R^2=2.107 as(t)=0.3546 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2, \mu_R^2=2 as(t)=0.3588 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.993, \mu_R^2=1.993 as(t)=0.3592 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.789, \mu_R^2=1.789 as(t)=0.3726 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.407, \mu_R^2=1.407 as(t)=0.4072 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.311, \mu_R^2=1.311 as(t)=0.419 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.127, \mu_R^2=1.127 as(t)=0.4471 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.074, \mu_R^2=1.074 as(t)=0.4572 } CF_QCD::Coupling(pol=0) { t=1.073, \mu_R^2=1.073 as(t)=0.4573 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8943, \mu_R^2=0.8943 as(t)=0.5009 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7394, \mu_R^2=0.7394 as(t)=0.5595 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6982, \mu_R^2=0.6982 as(t)=0.5809 } CF_QCD::Coupling(pol=0) { t=0.6973, \mu_R^2=0.6973 as(t)=0.5814 } CF_QCD::Coupling(pol=0) { t=0.5654, \mu_R^2=0.5654 as(t)=0.6815 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5355, \mu_R^2=0.5355 as(t)=0.7152 } CF_QCD::Coupling(pol=0) { t=0.4863, \mu_R^2=0.4863 as(t)=0.7864 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4402, \mu_R^2=0.4402 as(t)=0.8806 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.388, \mu_R^2=0.388 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.78, \mu_R^2=11.78 as(t)=0.2408 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.639, \mu_R^2=5.639 as(t)=0.2783 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.251, \mu_R^2=5.251 as(t)=0.2826 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.884, \mu_R^2=4.884 as(t)=0.2871 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.748, \mu_R^2=2.748 as(t)=0.3298 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.511, \mu_R^2=2.511 as(t)=0.3378 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.224, \mu_R^2=2.224 as(t)=0.3492 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.009, \mu_R^2=2.009 as(t)=0.3583 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.81, \mu_R^2=1.81 as(t)=0.3711 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.689, \mu_R^2=1.689 as(t)=0.3803 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.6, \mu_R^2=1.6 as(t)=0.3878 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.358, \mu_R^2=1.358 as(t)=0.4131 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.167, \mu_R^2=1.167 as(t)=0.4403 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.113, \mu_R^2=1.113 as(t)=0.4497 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9663, \mu_R^2=0.9663 as(t)=0.4812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9383, \mu_R^2=0.9383 as(t)=0.4884 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8885, \mu_R^2=0.8885 as(t)=0.5027 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8426, \mu_R^2=0.8426 as(t)=0.5176 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8391, \mu_R^2=0.8391 as(t)=0.5188 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8039, \mu_R^2=0.8039 as(t)=0.5317 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6846, \mu_R^2=0.6846 as(t)=0.5887 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6597, \mu_R^2=0.6597 as(t)=0.6042 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5747, \mu_R^2=0.5747 as(t)=0.6721 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5727, \mu_R^2=0.5727 as(t)=0.6742 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5382, \mu_R^2=0.5382 as(t)=0.7119 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5147, \mu_R^2=0.5147 as(t)=0.7424 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4538, \mu_R^2=0.4538 as(t)=0.849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.39, \mu_R^2=0.39 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3719, \mu_R^2=0.3719 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.83, \mu_R^2=14.83 as(t)=0.2312 } CF_QCD::Coupling(pol=0) { t=14.29, \mu_R^2=14.29 as(t)=0.2327 } CF_QCD::Coupling(pol=0) { t=14.59, \mu_R^2=14.59 as(t)=0.2318 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.89, \mu_R^2=11.89 as(t)=0.2404 } CF_QCD::Coupling(pol=0) { t=9.791, \mu_R^2=9.791 as(t)=0.2491 } CF_QCD::Coupling(pol=0) { t=5.287, \mu_R^2=5.287 as(t)=0.2822 } CF_QCD::Coupling(pol=0) { t=5.286, \mu_R^2=5.286 as(t)=0.2822 } CF_QCD::Coupling(pol=0) { t=5.061, \mu_R^2=5.061 as(t)=0.2849 } CF_QCD::Coupling(pol=0) { t=17.46, \mu_R^2=17.46 as(t)=0.2248 } CF_QCD::Coupling(pol=0) { t=14.32, \mu_R^2=14.32 as(t)=0.2326 } CF_QCD::Coupling(pol=0) { t=10.25, \mu_R^2=10.25 as(t)=0.247 } CF_QCD::Coupling(pol=0) { t=8.318, \mu_R^2=8.318 as(t)=0.257 } CF_QCD::Coupling(pol=0) { t=7.829, \mu_R^2=7.829 as(t)=0.2601 } CF_QCD::Coupling(pol=0) { t=5.401, \mu_R^2=5.401 as(t)=0.2809 } CF_QCD::Coupling(pol=0) { t=4.626, \mu_R^2=4.626 as(t)=0.2906 } CF_QCD::Coupling(pol=0) { t=3.704, \mu_R^2=3.704 as(t)=0.306 } CF_QCD::Coupling(pol=0) { t=3.166, \mu_R^2=3.166 as(t)=0.318 } CF_QCD::Coupling(pol=0) { t=3.146, \mu_R^2=3.146 as(t)=0.3185 } CF_QCD::Coupling(pol=0) { t=1.584, \mu_R^2=1.584 as(t)=0.3893 } CF_QCD::Coupling(pol=0) { t=13.62, \mu_R^2=13.62 as(t)=0.2346 } CF_QCD::Coupling(pol=0) { t=7.401, \mu_R^2=7.401 as(t)=0.2631 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.73, \mu_R^2=6.73 as(t)=0.2682 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.326, \mu_R^2=6.326 as(t)=0.2716 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.388, \mu_R^2=5.388 as(t)=0.281 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.33, \mu_R^2=5.33 as(t)=0.2817 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.063, \mu_R^2=5.063 as(t)=0.2849 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.993, \mu_R^2=4.993 as(t)=0.2857 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.285, \mu_R^2=4.285 as(t)=0.2957 } CF_QCD::Coupling(pol=0) { t=4.169, \mu_R^2=4.169 as(t)=0.2976 } CF_QCD::Coupling(pol=0) { t=4.144, \mu_R^2=4.144 as(t)=0.298 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.829, \mu_R^2=3.829 as(t)=0.3036 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.164, \mu_R^2=3.164 as(t)=0.3181 } CF_QCD::Coupling(pol=0) { t=3.044, \mu_R^2=3.044 as(t)=0.3212 } CF_QCD::Coupling(pol=0) { t=2.858, \mu_R^2=2.858 as(t)=0.3264 } CF_QCD::Coupling(pol=0) { t=2.704, \mu_R^2=2.704 as(t)=0.3312 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.57, \mu_R^2=2.57 as(t)=0.3357 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.189, \mu_R^2=2.189 as(t)=0.3508 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.858, \mu_R^2=1.858 as(t)=0.3678 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.825, \mu_R^2=1.825 as(t)=0.3701 } CF_QCD::Coupling(pol=0) { t=1.705, \mu_R^2=1.705 as(t)=0.379 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.69, \mu_R^2=1.69 as(t)=0.3802 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.579, \mu_R^2=1.579 as(t)=0.3897 } CF_QCD::Coupling(pol=0) { t=1.564, \mu_R^2=1.564 as(t)=0.3911 } CF_QCD::Coupling(pol=0) { t=12.9, \mu_R^2=12.9 as(t)=0.2369 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.32, \mu_R^2=12.32 as(t)=0.2388 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.75, \mu_R^2=11.75 as(t)=0.2409 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.535, \mu_R^2=9.535 as(t)=0.2504 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.599, \mu_R^2=6.599 as(t)=0.2693 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.914, \mu_R^2=5.914 as(t)=0.2755 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.811, \mu_R^2=5.811 as(t)=0.2765 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.656, \mu_R^2=3.656 as(t)=0.307 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.373, \mu_R^2=3.373 as(t)=0.3131 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.749, \mu_R^2=2.749 as(t)=0.3298 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.545, \mu_R^2=2.545 as(t)=0.3365 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.229, \mu_R^2=2.229 as(t)=0.349 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.194, \mu_R^2=2.194 as(t)=0.3506 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.88, \mu_R^2=1.88 as(t)=0.3663 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.514, \mu_R^2=1.514 as(t)=0.3959 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.443, \mu_R^2=1.443 as(t)=0.4033 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.4, \mu_R^2=1.4 as(t)=0.4081 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.335, \mu_R^2=1.335 as(t)=0.4159 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9263, \mu_R^2=0.9263 as(t)=0.4917 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8336, \mu_R^2=0.8336 as(t)=0.5207 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6252, \mu_R^2=0.6252 as(t)=0.6285 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5589, \mu_R^2=0.5589 as(t)=0.6883 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5501, \mu_R^2=0.5501 as(t)=0.698 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4953, \mu_R^2=0.4953 as(t)=0.7715 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4387, \mu_R^2=0.4387 as(t)=0.8844 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4227, \mu_R^2=0.4227 as(t)=0.9272 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.387, \mu_R^2=0.387 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=17.37, \mu_R^2=17.37 as(t)=0.225 } CF_QCD::Coupling(pol=0) { t=16.96, \mu_R^2=16.96 as(t)=0.2259 } CF_QCD::Coupling(pol=0) { t=16.22, \mu_R^2=16.22 as(t)=0.2276 } CF_QCD::Coupling(pol=0) { t=13.64, \mu_R^2=13.64 as(t)=0.2346 } CF_QCD::Coupling(pol=0) { t=11.73, \mu_R^2=11.73 as(t)=0.241 } CF_QCD::Coupling(pol=0) { t=11.34, \mu_R^2=11.34 as(t)=0.2425 } CF_QCD::Coupling(pol=0) { t=10.8, \mu_R^2=10.8 as(t)=0.2446 } CF_QCD::Coupling(pol=0) { t=10.63, \mu_R^2=10.63 as(t)=0.2453 } CF_QCD::Coupling(pol=0) { t=10.36, \mu_R^2=10.36 as(t)=0.2465 } CF_QCD::Coupling(pol=0) { t=8.599, \mu_R^2=8.599 as(t)=0.2554 } CF_QCD::Coupling(pol=0) { t=8.17, \mu_R^2=8.17 as(t)=0.2579 } CF_QCD::Coupling(pol=0) { t=7.719, \mu_R^2=7.719 as(t)=0.2609 } CF_QCD::Coupling(pol=0) { t=7.269, \mu_R^2=7.269 as(t)=0.264 } CF_QCD::Coupling(pol=0) { t=7.139, \mu_R^2=7.139 as(t)=0.265 } CF_QCD::Coupling(pol=0) { t=6.506, \mu_R^2=6.506 as(t)=0.27 } CF_QCD::Coupling(pol=0) { t=6.203, \mu_R^2=6.203 as(t)=0.2727 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.708, \mu_R^2=5.708 as(t)=0.2776 } CF_QCD::Coupling(pol=0) { t=5.072, \mu_R^2=5.072 as(t)=0.2848 } CF_QCD::Coupling(pol=0) { t=7.989, \mu_R^2=7.989 as(t)=0.2591 } CF_QCD::Coupling(pol=0) { t=7.357, \mu_R^2=7.357 as(t)=0.2634 } CF_QCD::Coupling(pol=0) { t=5.544, \mu_R^2=5.544 as(t)=0.2793 } CF_QCD::Coupling(pol=0) { t=5.471, \mu_R^2=5.471 as(t)=0.2801 } CF_QCD::Coupling(pol=0) { t=5.419, \mu_R^2=5.419 as(t)=0.2807 } CF_QCD::Coupling(pol=0) { t=4.713, \mu_R^2=4.713 as(t)=0.2894 } CF_QCD::Coupling(pol=0) { t=4.42, \mu_R^2=4.42 as(t)=0.2937 } CF_QCD::Coupling(pol=0) { t=4.062, \mu_R^2=4.062 as(t)=0.2994 } CF_QCD::Coupling(pol=0) { t=3.109, \mu_R^2=3.109 as(t)=0.3195 } CF_QCD::Coupling(pol=0) { t=1.549, \mu_R^2=1.549 as(t)=0.3925 } CF_QCD::Coupling(pol=0) { t=1.262, \mu_R^2=1.262 as(t)=0.4257 } CF_QCD::Coupling(pol=0) { t=0.9509, \mu_R^2=0.9509 as(t)=0.4851 } CF_QCD::Coupling(pol=0) { t=0.6536, \mu_R^2=0.6536 as(t)=0.6082 } Emission G -> G G at kt = 5.932( 0 .. 6.58 ), z = 0.5779, y = 0.01032 for Parton 0x7ffbb488e0a0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (40.34,12.31,7.209,37.73) 3.528e-06 0 (606,602)[606,602] (Final state parton) Colour partners (0x7ffbb5c8f250,0x7ffbb5c704f0) k_T start : 6.58 k_T test : 5.932 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5c8f250 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (2652,-1.539e-14,-7.695e-15,2652) 1.721e-14 0 (607,606)[607,606] (Initial state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb488e0a0) k_T start : 6.58 k_T test : 0 k_T veto : 20(4918) x_B : 0.6631 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 9 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=5.274, \mu_R^2=5.274 as(t)=0.2823 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.177, \mu_R^2=5.177 as(t)=0.2835 } CF_QCD::Coupling(pol=0) { t=8.019, \mu_R^2=8.019 as(t)=0.2589 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.771, \mu_R^2=6.771 as(t)=0.2678 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.542, \mu_R^2=4.542 as(t)=0.2919 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.007, \mu_R^2=3.007 as(t)=0.3222 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.956, \mu_R^2=2.956 as(t)=0.3236 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.935, \mu_R^2=1.935 as(t)=0.3628 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.788, \mu_R^2=1.788 as(t)=0.3727 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.735, \mu_R^2=1.735 as(t)=0.3766 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.599, \mu_R^2=1.599 as(t)=0.3879 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.172, \mu_R^2=1.172 as(t)=0.4395 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.961, \mu_R^2=0.961 as(t)=0.4825 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8136, \mu_R^2=0.8136 as(t)=0.528 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6222, \mu_R^2=0.6222 as(t)=0.6308 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5542, \mu_R^2=0.5542 as(t)=0.6934 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5542, \mu_R^2=0.5542 as(t)=0.6934 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5147, \mu_R^2=0.5147 as(t)=0.7424 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.496, \mu_R^2=0.496 as(t)=0.7703 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4334, \mu_R^2=0.4334 as(t)=0.8979 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3805, \mu_R^2=0.3805 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.29, \mu_R^2=11.29 as(t)=0.2426 } CF_QCD::Coupling(pol=0) { t=9.576, \mu_R^2=9.576 as(t)=0.2502 } CF_QCD::Coupling(pol=0) { t=8.66, \mu_R^2=8.66 as(t)=0.255 } CF_QCD::Coupling(pol=0) { t=7.685, \mu_R^2=7.685 as(t)=0.2611 } CF_QCD::Coupling(pol=0) { t=7.006, \mu_R^2=7.006 as(t)=0.266 } CF_QCD::Coupling(pol=0) { t=6.835, \mu_R^2=6.835 as(t)=0.2673 } CF_QCD::Coupling(pol=0) { t=6.813, \mu_R^2=6.813 as(t)=0.2675 } CF_QCD::Coupling(pol=0) { t=6.548, \mu_R^2=6.548 as(t)=0.2697 } CF_QCD::Coupling(pol=0) { t=6.501, \mu_R^2=6.501 as(t)=0.2701 } CF_QCD::Coupling(pol=0) { t=6.437, \mu_R^2=6.437 as(t)=0.2706 } CF_QCD::Coupling(pol=0) { t=6.174, \mu_R^2=6.174 as(t)=0.273 } CF_QCD::Coupling(pol=0) { t=6.091, \mu_R^2=6.091 as(t)=0.2738 } CF_QCD::Coupling(pol=0) { t=4.872, \mu_R^2=4.872 as(t)=0.2873 } CF_QCD::Coupling(pol=0) { t=4.632, \mu_R^2=4.632 as(t)=0.2906 } CF_QCD::Coupling(pol=0) { t=4.413, \mu_R^2=4.413 as(t)=0.2938 } CF_QCD::Coupling(pol=0) { t=3.992, \mu_R^2=3.992 as(t)=0.3007 } CF_QCD::Coupling(pol=0) { t=3.627, \mu_R^2=3.627 as(t)=0.3076 } CF_QCD::Coupling(pol=0) { t=3.371, \mu_R^2=3.371 as(t)=0.3131 } CF_QCD::Coupling(pol=0) { t=2.874, \mu_R^2=2.874 as(t)=0.326 } CF_QCD::Coupling(pol=0) { t=2.296, \mu_R^2=2.296 as(t)=0.3461 } CF_QCD::Coupling(pol=0) { t=2.154, \mu_R^2=2.154 as(t)=0.3524 } CF_QCD::Coupling(pol=0) { t=2.14, \mu_R^2=2.14 as(t)=0.3531 } CF_QCD::Coupling(pol=0) { t=2.095, \mu_R^2=2.095 as(t)=0.3552 } CF_QCD::Coupling(pol=0) { t=1.99, \mu_R^2=1.99 as(t)=0.3594 } CF_QCD::Coupling(pol=0) { t=1.855, \mu_R^2=1.855 as(t)=0.368 } CF_QCD::Coupling(pol=0) { t=1.834, \mu_R^2=1.834 as(t)=0.3694 } CF_QCD::Coupling(pol=0) { t=1.623, \mu_R^2=1.623 as(t)=0.3858 } CF_QCD::Coupling(pol=0) { t=1.514, \mu_R^2=1.514 as(t)=0.3959 } CF_QCD::Coupling(pol=0) { t=1.439, \mu_R^2=1.439 as(t)=0.4036 } CF_QCD::Coupling(pol=0) { t=1.223, \mu_R^2=1.223 as(t)=0.4314 } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4397 } CF_QCD::Coupling(pol=0) { t=1.122, \mu_R^2=1.122 as(t)=0.4481 } CF_QCD::Coupling(pol=0) { t=1.024, \mu_R^2=1.024 as(t)=0.4677 } CF_QCD::Coupling(pol=0) { t=0.9793, \mu_R^2=0.9793 as(t)=0.478 } CF_QCD::Coupling(pol=0) { t=0.947, \mu_R^2=0.947 as(t)=0.4861 } CF_QCD::Coupling(pol=0) { t=0.823, \mu_R^2=0.823 as(t)=0.5245 } CF_QCD::Coupling(pol=0) { t=0.7796, \mu_R^2=0.7796 as(t)=0.5415 } CF_QCD::Coupling(pol=0) { t=0.7195, \mu_R^2=0.7195 as(t)=0.5695 } CF_QCD::Coupling(pol=0) { t=0.6401, \mu_R^2=0.6401 as(t)=0.6176 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6347, \mu_R^2=0.6347 as(t)=0.6214 } CF_QCD::Coupling(pol=0) { t=0.5344, \mu_R^2=0.5344 as(t)=0.7165 } CF_QCD::Coupling(pol=0) { t=0.5201, \mu_R^2=0.5201 as(t)=0.7351 } CF_QCD::Coupling(pol=0) { t=0.5079, \mu_R^2=0.5079 as(t)=0.7522 } CF_QCD::Coupling(pol=0) { t=0.5007, \mu_R^2=0.5007 as(t)=0.763 } CF_QCD::Coupling(pol=0) { t=0.4978, \mu_R^2=0.4978 as(t)=0.7675 } CF_QCD::Coupling(pol=0) { t=0.4307, \mu_R^2=0.4307 as(t)=0.905 } CF_QCD::Coupling(pol=0) { t=0.397, \mu_R^2=0.397 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3772, \mu_R^2=0.3772 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3686, \mu_R^2=0.3686 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3627, \mu_R^2=0.3627 as(t)=1 } CF_QCD::Coupling(pol=0) { t=12.75, \mu_R^2=12.75 as(t)=0.2374 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.41, \mu_R^2=12.41 as(t)=0.2385 } CF_QCD::Coupling(pol=0) { t=6.805, \mu_R^2=6.805 as(t)=0.2676 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.259, \mu_R^2=4.259 as(t)=0.2962 } CF_QCD::Coupling(pol=0) { t=14.17, \mu_R^2=14.17 as(t)=0.233 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.32, \mu_R^2=13.32 as(t)=0.2355 } CF_QCD::Coupling(pol=0) { t=7.345, \mu_R^2=7.345 as(t)=0.2635 } CF_QCD::Coupling(pol=0) { t=5.113, \mu_R^2=5.113 as(t)=0.2842 } CF_QCD::Coupling(pol=0) { t=4.714, \mu_R^2=4.714 as(t)=0.2894 } CF_QCD::Coupling(pol=0) { t=4.209, \mu_R^2=4.209 as(t)=0.297 } CF_QCD::Coupling(pol=0) { t=3.179, \mu_R^2=3.179 as(t)=0.3177 } CF_QCD::Coupling(pol=0) { t=3.177, \mu_R^2=3.177 as(t)=0.3177 } CF_QCD::Coupling(pol=0) { t=3.165, \mu_R^2=3.165 as(t)=0.318 } CF_QCD::Coupling(pol=0) { t=2.951, \mu_R^2=2.951 as(t)=0.3237 } CF_QCD::Coupling(pol=0) { t=2.861, \mu_R^2=2.861 as(t)=0.3263 } CF_QCD::Coupling(pol=0) { t=2.715, \mu_R^2=2.715 as(t)=0.3308 } CF_QCD::Coupling(pol=0) { t=2.629, \mu_R^2=2.629 as(t)=0.3336 } CF_QCD::Coupling(pol=0) { t=2.485, \mu_R^2=2.485 as(t)=0.3387 } CF_QCD::Coupling(pol=0) { t=2.107, \mu_R^2=2.107 as(t)=0.3547 } CF_QCD::Coupling(pol=0) { t=1.758, \mu_R^2=1.758 as(t)=0.3749 } CF_QCD::Coupling(pol=0) { t=1.299, \mu_R^2=1.299 as(t)=0.4206 } CF_QCD::Coupling(pol=0) { t=9.936, \mu_R^2=9.936 as(t)=0.2484 } CF_QCD::Coupling(pol=0) { t=9.775, \mu_R^2=9.775 as(t)=0.2492 } CF_QCD::Coupling(pol=0) { t=5.598, \mu_R^2=5.598 as(t)=0.2787 } CF_QCD::Coupling(pol=0) { t=4.825, \mu_R^2=4.825 as(t)=0.2879 } CF_QCD::Coupling(pol=0) { t=2.93, \mu_R^2=2.93 as(t)=0.3243 } CF_QCD::Coupling(pol=0) { t=2.613, \mu_R^2=2.613 as(t)=0.3342 } CF_QCD::Coupling(pol=0) { t=2.532, \mu_R^2=2.532 as(t)=0.337 } CF_QCD::Coupling(pol=0) { t=2.426, \mu_R^2=2.426 as(t)=0.3409 } CF_QCD::Coupling(pol=0) { t=1.83, \mu_R^2=1.83 as(t)=0.3697 } CF_QCD::Coupling(pol=0) { t=1.709, \mu_R^2=1.709 as(t)=0.3787 } CF_QCD::Coupling(pol=0) { t=1.113, \mu_R^2=1.113 as(t)=0.4498 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.26, \mu_R^2=12.26 as(t)=0.239 } CF_QCD::Coupling(pol=0) { t=8.203, \mu_R^2=8.203 as(t)=0.2578 } CF_QCD::Coupling(pol=0) { t=9.961, \mu_R^2=9.961 as(t)=0.2483 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.335, \mu_R^2=7.335 as(t)=0.2635 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.84, \mu_R^2=4.84 as(t)=0.2877 } CF_QCD::Coupling(pol=0) { t=5.696, \mu_R^2=5.696 as(t)=0.2777 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.868, \mu_R^2=3.868 as(t)=0.3029 } CF_QCD::Coupling(pol=0) { t=3.192, \mu_R^2=3.192 as(t)=0.3174 } CF_QCD::Coupling(pol=0) { t=2.357, \mu_R^2=2.357 as(t)=0.3437 } CF_QCD::Coupling(pol=0) { t=1.558, \mu_R^2=1.558 as(t)=0.3917 } CF_QCD::Coupling(pol=0) { t=1.4, \mu_R^2=1.4 as(t)=0.4081 } CF_QCD::Coupling(pol=0) { t=6.579, \mu_R^2=6.579 as(t)=0.2694 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.729, \mu_R^2=5.729 as(t)=0.2773 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.523, \mu_R^2=5.523 as(t)=0.2795 } CF_QCD::Coupling(pol=0) { t=5.221, \mu_R^2=5.221 as(t)=0.283 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.887, \mu_R^2=4.887 as(t)=0.2871 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.69, \mu_R^2=4.69 as(t)=0.2897 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.084, \mu_R^2=4.084 as(t)=0.2991 } CF_QCD::Coupling(pol=0) { t=14.27, \mu_R^2=14.27 as(t)=0.2327 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.94, \mu_R^2=12.94 as(t)=0.2368 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.56, \mu_R^2=12.56 as(t)=0.238 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.06, \mu_R^2=11.06 as(t)=0.2436 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.907, \mu_R^2=6.907 as(t)=0.2668 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.598, \mu_R^2=6.598 as(t)=0.2693 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.422, \mu_R^2=6.422 as(t)=0.2708 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=12.86, \mu_R^2=12.86 as(t)=0.237 } CF_QCD::Coupling(pol=0) { t=11.28, \mu_R^2=11.28 as(t)=0.2427 } CF_QCD::Coupling(pol=0) { t=11.15, \mu_R^2=11.15 as(t)=0.2432 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.75, \mu_R^2=13.75 as(t)=0.2342 } CF_QCD::Coupling(pol=0) { t=12.63, \mu_R^2=12.63 as(t)=0.2378 } CF_QCD::Coupling(pol=0) { t=5.405, \mu_R^2=5.405 as(t)=0.2808 } CF_QCD::Coupling(pol=0) { t=4.823, \mu_R^2=4.823 as(t)=0.2879 } CF_QCD::Coupling(pol=0) { t=4.336, \mu_R^2=4.336 as(t)=0.2949 } CF_QCD::Coupling(pol=0) { t=4.285, \mu_R^2=4.285 as(t)=0.2958 } CF_QCD::Coupling(pol=0) { t=4.026, \mu_R^2=4.026 as(t)=0.3001 } CF_QCD::Coupling(pol=0) { t=2.563, \mu_R^2=2.563 as(t)=0.3359 } CF_QCD::Coupling(pol=0) { t=2.325, \mu_R^2=2.325 as(t)=0.345 } CF_QCD::Coupling(pol=0) { t=2.232, \mu_R^2=2.232 as(t)=0.3489 } CF_QCD::Coupling(pol=0) { t=1.8, \mu_R^2=1.8 as(t)=0.3718 } CF_QCD::Coupling(pol=0) { t=1.798, \mu_R^2=1.798 as(t)=0.3719 } CF_QCD::Coupling(pol=0) { t=1.665, \mu_R^2=1.665 as(t)=0.3822 } CF_QCD::Coupling(pol=0) { t=1.175, \mu_R^2=1.175 as(t)=0.4389 } CF_QCD::Coupling(pol=0) { t=0.9895, \mu_R^2=0.9895 as(t)=0.4755 } CF_QCD::Coupling(pol=0) { t=0.9744, \mu_R^2=0.9744 as(t)=0.4792 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5959, \mu_R^2=0.5959 as(t)=0.6525 } CF_QCD::Coupling(pol=0) { t=0.4571, \mu_R^2=0.4571 as(t)=0.842 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.418, \mu_R^2=0.418 as(t)=0.9409 } Emission G -> u ub at kt = 5.239( 0 .. 5.932 ), z = 0.3905, y = 0.0008402 for Parton 0x7ffbb4a14bf0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (81.03,29.61,5.758,-75.2) 7.603e-06 0 (608,603)[608,603] (Final state parton) Colour partners (0x7ffbb4a6c7f0,0x7ffbb5cd5a40) k_T start : 5.932 k_T test : 5.239 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cd5a40 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (2801,0,0,-2801) 0 0 (603,605)[603,605] (Initial state parton) Colour partners (0x7ffbb4a14bf0,0x7ffbb5cea450) k_T start : 5.932 k_T test : 0 k_T veto : 20(4918) x_B : 0.7002 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 10 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=5.56, \mu_R^2=5.56 as(t)=0.2791 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.127, \mu_R^2=4.127 as(t)=0.2983 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.704, \mu_R^2=3.704 as(t)=0.306 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.464, \mu_R^2=3.464 as(t)=0.311 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.904, \mu_R^2=2.904 as(t)=0.3251 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.737, \mu_R^2=1.737 as(t)=0.3765 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.598, \mu_R^2=1.598 as(t)=0.388 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.53, \mu_R^2=1.53 as(t)=0.3943 } CF_QCD::Coupling(pol=0) { t=1.502, \mu_R^2=1.502 as(t)=0.397 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.426, \mu_R^2=1.426 as(t)=0.4052 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.367, \mu_R^2=1.367 as(t)=0.4119 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.331, \mu_R^2=1.331 as(t)=0.4164 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.33, \mu_R^2=1.33 as(t)=0.4165 } CF_QCD::Coupling(pol=0) { t=1.171, \mu_R^2=1.171 as(t)=0.4396 } CF_QCD::Coupling(pol=0) { t=0.8892, \mu_R^2=0.8892 as(t)=0.5024 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6425, \mu_R^2=0.6425 as(t)=0.6158 } CF_QCD::Coupling(pol=0) { t=0.5737, \mu_R^2=0.5737 as(t)=0.6731 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.571, \mu_R^2=0.571 as(t)=0.6758 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5694, \mu_R^2=0.5694 as(t)=0.6774 } CF_QCD::Coupling(pol=0) { t=0.557, \mu_R^2=0.557 as(t)=0.6904 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5439, \mu_R^2=0.5439 as(t)=0.7051 } CF_QCD::Coupling(pol=0) { t=0.5212, \mu_R^2=0.5212 as(t)=0.7336 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5066, \mu_R^2=0.5066 as(t)=0.7542 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4464, \mu_R^2=0.4464 as(t)=0.8658 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4293, \mu_R^2=0.4293 as(t)=0.9088 } CF_QCD::Coupling(pol=0) { t=0.4199, \mu_R^2=0.4199 as(t)=0.9354 } CF_QCD::Coupling(pol=0) { t=10.87, \mu_R^2=10.87 as(t)=0.2443 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.766, \mu_R^2=8.766 as(t)=0.2544 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.208, \mu_R^2=6.208 as(t)=0.2727 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.471, \mu_R^2=5.471 as(t)=0.2801 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.427, \mu_R^2=5.427 as(t)=0.2806 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.788, \mu_R^2=4.788 as(t)=0.2884 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.595, \mu_R^2=4.595 as(t)=0.2911 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.527, \mu_R^2=4.527 as(t)=0.2921 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.17, \mu_R^2=3.17 as(t)=0.3179 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.013, \mu_R^2=3.013 as(t)=0.322 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.312, \mu_R^2=2.312 as(t)=0.3455 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.015, \mu_R^2=2.015 as(t)=0.3579 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.927, \mu_R^2=1.927 as(t)=0.3632 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.836, \mu_R^2=1.836 as(t)=0.3693 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.829, \mu_R^2=1.829 as(t)=0.3698 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.519, \mu_R^2=1.519 as(t)=0.3954 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.174, \mu_R^2=1.174 as(t)=0.4391 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.856, \mu_R^2=0.856 as(t)=0.513 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7235, \mu_R^2=0.7235 as(t)=0.5674 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6829, \mu_R^2=0.6829 as(t)=0.5897 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6179, \mu_R^2=0.6179 as(t)=0.6342 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5121, \mu_R^2=0.5121 as(t)=0.7461 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4706, \mu_R^2=0.4706 as(t)=0.8147 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4193, \mu_R^2=0.4193 as(t)=0.9372 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4091, \mu_R^2=0.4091 as(t)=0.9691 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=11.07, \mu_R^2=11.07 as(t)=0.2435 } CF_QCD::Coupling(pol=0) { t=10.69, \mu_R^2=10.69 as(t)=0.2451 } CF_QCD::Coupling(pol=0) { t=8.608, \mu_R^2=8.608 as(t)=0.2553 } CF_QCD::Coupling(pol=0) { t=8.13, \mu_R^2=8.13 as(t)=0.2582 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.603, \mu_R^2=7.603 as(t)=0.2616 } CF_QCD::Coupling(pol=0) { t=7.325, \mu_R^2=7.325 as(t)=0.2636 } CF_QCD::Coupling(pol=0) { t=7.261, \mu_R^2=7.261 as(t)=0.2641 } CF_QCD::Coupling(pol=0) { t=7.148, \mu_R^2=7.148 as(t)=0.2649 } CF_QCD::Coupling(pol=0) { t=7.144, \mu_R^2=7.144 as(t)=0.2649 } CF_QCD::Coupling(pol=0) { t=6.15, \mu_R^2=6.15 as(t)=0.2732 } CF_QCD::Coupling(pol=0) { t=6.077, \mu_R^2=6.077 as(t)=0.2739 } CF_QCD::Coupling(pol=0) { t=8.7, \mu_R^2=8.7 as(t)=0.2548 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.423, \mu_R^2=5.423 as(t)=0.2806 } CF_QCD::Coupling(pol=0) { t=5.125, \mu_R^2=5.125 as(t)=0.2841 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.604, \mu_R^2=4.604 as(t)=0.291 } CF_QCD::Coupling(pol=0) { t=4.297, \mu_R^2=4.297 as(t)=0.2956 } CF_QCD::Coupling(pol=0) { t=4.078, \mu_R^2=4.078 as(t)=0.2992 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.017, \mu_R^2=4.017 as(t)=0.3002 } CF_QCD::Coupling(pol=0) { t=3.838, \mu_R^2=3.838 as(t)=0.3035 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.388, \mu_R^2=3.388 as(t)=0.3127 } CF_QCD::Coupling(pol=0) { t=2.99, \mu_R^2=2.99 as(t)=0.3226 } CF_QCD::Coupling(pol=0) { t=2.617, \mu_R^2=2.617 as(t)=0.3341 } CF_QCD::Coupling(pol=0) { t=2.547, \mu_R^2=2.547 as(t)=0.3365 } CF_QCD::Coupling(pol=0) { t=2.457, \mu_R^2=2.457 as(t)=0.3398 } CF_QCD::Coupling(pol=0) { t=2.288, \mu_R^2=2.288 as(t)=0.3465 } CF_QCD::Coupling(pol=0) { t=2.165, \mu_R^2=2.165 as(t)=0.3519 } CF_QCD::Coupling(pol=0) { t=2.006, \mu_R^2=2.006 as(t)=0.3584 } CF_QCD::Coupling(pol=0) { t=1.755, \mu_R^2=1.755 as(t)=0.3751 } CF_QCD::Coupling(pol=0) { t=2.606, \mu_R^2=2.606 as(t)=0.3344 } CF_QCD::Coupling(pol=0) { t=2.527, \mu_R^2=2.527 as(t)=0.3372 } CF_QCD::Coupling(pol=0) { t=1.905, \mu_R^2=1.905 as(t)=0.3647 } CF_QCD::Coupling(pol=0) { t=1.855, \mu_R^2=1.855 as(t)=0.368 } CF_QCD::Coupling(pol=0) { t=1.696, \mu_R^2=1.696 as(t)=0.3797 } CF_QCD::Coupling(pol=0) { t=1.594, \mu_R^2=1.594 as(t)=0.3883 } CF_QCD::Coupling(pol=0) { t=1.376, \mu_R^2=1.376 as(t)=0.4108 } CF_QCD::Coupling(pol=0) { t=1.163, \mu_R^2=1.163 as(t)=0.441 } CF_QCD::Coupling(pol=0) { t=1.073, \mu_R^2=1.073 as(t)=0.4573 } CF_QCD::Coupling(pol=0) { t=0.9342, \mu_R^2=0.9342 as(t)=0.4895 } CF_QCD::Coupling(pol=0) { t=9.779, \mu_R^2=9.779 as(t)=0.2492 } CF_QCD::Coupling(pol=0) { t=8.534, \mu_R^2=8.534 as(t)=0.2558 } CF_QCD::Coupling(pol=0) { t=8.08, \mu_R^2=8.08 as(t)=0.2585 } CF_QCD::Coupling(pol=0) { t=6.652, \mu_R^2=6.652 as(t)=0.2688 } CF_QCD::Coupling(pol=0) { t=4.911, \mu_R^2=4.911 as(t)=0.2868 } CF_QCD::Coupling(pol=0) { t=4.178, \mu_R^2=4.178 as(t)=0.2975 } CF_QCD::Coupling(pol=0) { t=3.504, \mu_R^2=3.504 as(t)=0.3102 } CF_QCD::Coupling(pol=0) { t=6.204, \mu_R^2=6.204 as(t)=0.2727 } CF_QCD::Coupling(pol=0) { t=5.625, \mu_R^2=5.625 as(t)=0.2784 } CF_QCD::Coupling(pol=0) { t=2.256, \mu_R^2=2.256 as(t)=0.3479 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.208, \mu_R^2=6.208 as(t)=0.2727 } CF_QCD::Coupling(pol=0) { t=5.976, \mu_R^2=5.976 as(t)=0.2749 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.532, \mu_R^2=5.532 as(t)=0.2794 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.438, \mu_R^2=5.438 as(t)=0.2805 } CF_QCD::Coupling(pol=0) { t=5.408, \mu_R^2=5.408 as(t)=0.2808 } CF_QCD::Coupling(pol=0) { t=5.116, \mu_R^2=5.116 as(t)=0.2842 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.964, \mu_R^2=3.964 as(t)=0.3012 } CF_QCD::Coupling(pol=0) { t=3.622, \mu_R^2=3.622 as(t)=0.3077 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.362, \mu_R^2=3.362 as(t)=0.3133 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.338, \mu_R^2=3.338 as(t)=0.3139 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.753, \mu_R^2=2.753 as(t)=0.3296 } CF_QCD::Coupling(pol=0) { t=2.685, \mu_R^2=2.685 as(t)=0.3318 } CF_QCD::Coupling(pol=0) { t=2.379, \mu_R^2=2.379 as(t)=0.3428 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.849, \mu_R^2=1.849 as(t)=0.3684 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.678, \mu_R^2=1.678 as(t)=0.3811 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.325, \mu_R^2=1.325 as(t)=0.4172 } CF_QCD::Coupling(pol=0) { t=1.271, \mu_R^2=1.271 as(t)=0.4244 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.252, \mu_R^2=1.252 as(t)=0.4271 } CF_QCD::Coupling(pol=0) { t=1.229, \mu_R^2=1.229 as(t)=0.4305 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.017, \mu_R^2=1.017 as(t)=0.4692 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9826, \mu_R^2=0.9826 as(t)=0.4772 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9798, \mu_R^2=0.9798 as(t)=0.4779 } CF_QCD::Coupling(pol=0) { t=0.9266, \mu_R^2=0.9266 as(t)=0.4916 } CF_QCD::Coupling(pol=0) { t=0.7944, \mu_R^2=0.7944 as(t)=0.5355 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.782, \mu_R^2=0.782 as(t)=0.5405 } CF_QCD::Coupling(pol=0) { t=0.7818, \mu_R^2=0.7818 as(t)=0.5406 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7441, \mu_R^2=0.7441 as(t)=0.5573 } CF_QCD::Coupling(pol=0) { t=0.739, \mu_R^2=0.739 as(t)=0.5597 } CF_QCD::Coupling(pol=0) { t=0.6882, \mu_R^2=0.6882 as(t)=0.5866 } CF_QCD::Coupling(pol=0) { t=0.6865, \mu_R^2=0.6865 as(t)=0.5876 } CF_QCD::Coupling(pol=0) { t=0.6726, \mu_R^2=0.6726 as(t)=0.5959 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6321, \mu_R^2=0.6321 as(t)=0.6233 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.505, \mu_R^2=0.505 as(t)=0.7566 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4294, \mu_R^2=0.4294 as(t)=0.9086 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3989, \mu_R^2=0.3989 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3884, \mu_R^2=0.3884 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.49, \mu_R^2=10.49 as(t)=0.246 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.44, \mu_R^2=10.44 as(t)=0.2462 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.611, \mu_R^2=4.611 as(t)=0.2909 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.409, \mu_R^2=4.409 as(t)=0.2938 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.052, \mu_R^2=4.052 as(t)=0.2996 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.512, \mu_R^2=3.512 as(t)=0.31 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.488, \mu_R^2=3.488 as(t)=0.3105 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.463, \mu_R^2=3.463 as(t)=0.311 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.219, \mu_R^2=3.219 as(t)=0.3167 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.162, \mu_R^2=3.162 as(t)=0.3181 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.497, \mu_R^2=2.497 as(t)=0.3383 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.312, \mu_R^2=2.312 as(t)=0.3455 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.242, \mu_R^2=2.242 as(t)=0.3485 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.203, \mu_R^2=2.203 as(t)=0.3502 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.746, \mu_R^2=1.746 as(t)=0.3758 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.631, \mu_R^2=1.631 as(t)=0.3851 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.575, \mu_R^2=1.575 as(t)=0.3901 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.378, \mu_R^2=1.378 as(t)=0.4107 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.317, \mu_R^2=1.317 as(t)=0.4183 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.183, \mu_R^2=1.183 as(t)=0.4376 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.029, \mu_R^2=1.029 as(t)=0.4666 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8227, \mu_R^2=0.8227 as(t)=0.5246 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8073, \mu_R^2=0.8073 as(t)=0.5304 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6547, \mu_R^2=0.6547 as(t)=0.6075 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6234, \mu_R^2=0.6234 as(t)=0.6299 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6233, \mu_R^2=0.6233 as(t)=0.63 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5651, \mu_R^2=0.5651 as(t)=0.6818 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5409, \mu_R^2=0.5409 as(t)=0.7087 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4925, \mu_R^2=0.4925 as(t)=0.776 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4883, \mu_R^2=0.4883 as(t)=0.7829 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4091, \mu_R^2=0.4091 as(t)=0.969 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4081, \mu_R^2=0.4081 as(t)=0.9725 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4039, \mu_R^2=0.4039 as(t)=0.9868 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=9.465, \mu_R^2=9.465 as(t)=0.2507 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.447, \mu_R^2=4.447 as(t)=0.2932 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.922, \mu_R^2=3.922 as(t)=0.3019 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.152, \mu_R^2=3.152 as(t)=0.3184 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.316, \mu_R^2=2.316 as(t)=0.3453 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.122, \mu_R^2=1.122 as(t)=0.448 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6917, \mu_R^2=0.6917 as(t)=0.5846 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6545, \mu_R^2=0.6545 as(t)=0.6076 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.31, \mu_R^2=10.31 as(t)=0.2467 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.02, \mu_R^2=10.02 as(t)=0.2481 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.02, \mu_R^2=10.02 as(t)=0.2481 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.707, \mu_R^2=8.707 as(t)=0.2548 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.647, \mu_R^2=7.647 as(t)=0.2613 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.579, \mu_R^2=7.579 as(t)=0.2618 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.576, \mu_R^2=7.576 as(t)=0.2618 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.247, \mu_R^2=7.247 as(t)=0.2642 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.991, \mu_R^2=6.991 as(t)=0.2661 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.946, \mu_R^2=6.946 as(t)=0.2664 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.786, \mu_R^2=6.786 as(t)=0.2677 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.987, \mu_R^2=5.987 as(t)=0.2748 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.827, \mu_R^2=5.827 as(t)=0.2764 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.569, \mu_R^2=5.569 as(t)=0.279 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.409, \mu_R^2=5.409 as(t)=0.2808 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.291, \mu_R^2=5.291 as(t)=0.2821 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.126, \mu_R^2=5.126 as(t)=0.2841 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.084, \mu_R^2=5.084 as(t)=0.2846 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.071, \mu_R^2=5.071 as(t)=0.2848 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.983, \mu_R^2=4.983 as(t)=0.2859 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.825, \mu_R^2=4.825 as(t)=0.2879 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.319, \mu_R^2=4.319 as(t)=0.2952 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.3, \mu_R^2=4.3 as(t)=0.2955 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.953, \mu_R^2=3.953 as(t)=0.3013 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.811, \mu_R^2=3.811 as(t)=0.304 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.921, \mu_R^2=2.921 as(t)=0.3246 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.917, \mu_R^2=2.917 as(t)=0.3247 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.868, \mu_R^2=2.868 as(t)=0.3261 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.745, \mu_R^2=2.745 as(t)=0.3299 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.729, \mu_R^2=2.729 as(t)=0.3304 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.331, \mu_R^2=2.331 as(t)=0.3447 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.062, \mu_R^2=2.062 as(t)=0.3569 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.056, \mu_R^2=2.056 as(t)=0.3572 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.95, \mu_R^2=1.95 as(t)=0.3618 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.867, \mu_R^2=1.867 as(t)=0.3671 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.676, \mu_R^2=1.676 as(t)=0.3813 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.66, \mu_R^2=1.66 as(t)=0.3826 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.552, \mu_R^2=1.552 as(t)=0.3922 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.453, \mu_R^2=1.453 as(t)=0.4022 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.381, \mu_R^2=1.381 as(t)=0.4102 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.216, \mu_R^2=1.216 as(t)=0.4325 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.211, \mu_R^2=1.211 as(t)=0.4332 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.19, \mu_R^2=1.19 as(t)=0.4365 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.171, \mu_R^2=1.171 as(t)=0.4396 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.057, \mu_R^2=1.057 as(t)=0.4606 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9738, \mu_R^2=0.9738 as(t)=0.4793 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9664, \mu_R^2=0.9664 as(t)=0.4812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9647, \mu_R^2=0.9647 as(t)=0.4816 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8996, \mu_R^2=0.8996 as(t)=0.4993 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8768, \mu_R^2=0.8768 as(t)=0.5063 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8295, \mu_R^2=0.8295 as(t)=0.5222 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7907, \mu_R^2=0.7907 as(t)=0.5369 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7217, \mu_R^2=0.7217 as(t)=0.5683 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6956, \mu_R^2=0.6956 as(t)=0.5824 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6418, \mu_R^2=0.6418 as(t)=0.6164 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6362, \mu_R^2=0.6362 as(t)=0.6203 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5835, \mu_R^2=0.5835 as(t)=0.6637 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5764, \mu_R^2=0.5764 as(t)=0.6705 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.575, \mu_R^2=0.575 as(t)=0.6718 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5433, \mu_R^2=0.5433 as(t)=0.7058 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5264, \mu_R^2=0.5264 as(t)=0.7267 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5237, \mu_R^2=0.5237 as(t)=0.7303 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5107, \mu_R^2=0.5107 as(t)=0.7481 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4922, \mu_R^2=0.4922 as(t)=0.7764 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4692, \mu_R^2=0.4692 as(t)=0.8174 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4604, \mu_R^2=0.4604 as(t)=0.8349 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4486, \mu_R^2=0.4486 as(t)=0.8606 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4094, \mu_R^2=0.4094 as(t)=0.9681 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.387, \mu_R^2=0.387 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3696, \mu_R^2=0.3696 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3641, \mu_R^2=0.3641 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.723, \mu_R^2=8.723 as(t)=0.2547 } CF_QCD::Coupling(pol=0) { t=8.038, \mu_R^2=8.038 as(t)=0.2588 } CF_QCD::Coupling(pol=0) { t=5.518, \mu_R^2=5.518 as(t)=0.2796 } CF_QCD::Coupling(pol=0) { t=4.68, \mu_R^2=4.68 as(t)=0.2899 } CF_QCD::Coupling(pol=0) { t=4.444, \mu_R^2=4.444 as(t)=0.2933 } CF_QCD::Coupling(pol=0) { t=2.635, \mu_R^2=2.635 as(t)=0.3334 } CF_QCD::Coupling(pol=0) { t=1.701, \mu_R^2=1.701 as(t)=0.3793 } CF_QCD::Coupling(pol=0) { t=0.9362, \mu_R^2=0.9362 as(t)=0.489 } CF_QCD::Coupling(pol=0) { t=0.5367, \mu_R^2=0.5367 as(t)=0.7137 } Emission G -> d db at kt = 3.955( 0 .. 5.239 ), z = 0.8243, y = 0.006985 for Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (81.2,-60.97,-47.57,24.75) 2.687e-05 0 (602,604)[602,604] (Final state parton) Colour partners (0x7ffbb5b98a20,0x7ffbb5b98890) k_T start : 5.239 k_T test : 3.955 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5b98890 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (63.6,-48.83,-1.235,40.73) 1.317e-05 0 (604,609)[604,609] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb4a16550) k_T start : 5.239 k_T test : 3.029 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 11 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=2.476, \mu_R^2=2.476 as(t)=0.3391 } CF_QCD::Coupling(pol=0) { t=2.466, \mu_R^2=2.466 as(t)=0.3394 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.371, \mu_R^2=2.371 as(t)=0.3431 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.359, \mu_R^2=2.359 as(t)=0.3436 } CF_QCD::Coupling(pol=0) { t=5.447, \mu_R^2=5.447 as(t)=0.2804 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.522, \mu_R^2=4.522 as(t)=0.2921 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.641, \mu_R^2=3.641 as(t)=0.3073 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.225, \mu_R^2=3.225 as(t)=0.3166 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.515, \mu_R^2=2.515 as(t)=0.3376 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.081, \mu_R^2=2.081 as(t)=0.3559 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.002, \mu_R^2=2.002 as(t)=0.3587 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.492, \mu_R^2=1.492 as(t)=0.3981 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.455, \mu_R^2=1.455 as(t)=0.4019 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.179, \mu_R^2=1.179 as(t)=0.4382 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.137, \mu_R^2=1.137 as(t)=0.4454 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9603, \mu_R^2=0.9603 as(t)=0.4827 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8591, \mu_R^2=0.8591 as(t)=0.512 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8471, \mu_R^2=0.8471 as(t)=0.516 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8131, \mu_R^2=0.8131 as(t)=0.5282 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6884, \mu_R^2=0.6884 as(t)=0.5865 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.625, \mu_R^2=0.625 as(t)=0.6286 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6019, \mu_R^2=0.6019 as(t)=0.6473 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5191, \mu_R^2=0.5191 as(t)=0.7364 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5053, \mu_R^2=0.5053 as(t)=0.756 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4917, \mu_R^2=0.4917 as(t)=0.7773 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4282, \mu_R^2=0.4282 as(t)=0.9118 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4168, \mu_R^2=0.4168 as(t)=0.9447 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3771, \mu_R^2=0.3771 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.835, \mu_R^2=5.835 as(t)=0.2763 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.321, \mu_R^2=5.321 as(t)=0.2818 } CF_QCD::Coupling(pol=0) { t=4.941, \mu_R^2=4.941 as(t)=0.2864 } CF_QCD::Coupling(pol=0) { t=4.893, \mu_R^2=4.893 as(t)=0.287 } CF_QCD::Coupling(pol=0) { t=4.782, \mu_R^2=4.782 as(t)=0.2885 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.27, \mu_R^2=4.27 as(t)=0.296 } CF_QCD::Coupling(pol=0) { t=4.235, \mu_R^2=4.235 as(t)=0.2966 } CF_QCD::Coupling(pol=0) { t=4.23, \mu_R^2=4.23 as(t)=0.2966 } CF_QCD::Coupling(pol=0) { t=4.177, \mu_R^2=4.177 as(t)=0.2975 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.853, \mu_R^2=3.853 as(t)=0.3032 } CF_QCD::Coupling(pol=0) { t=3.776, \mu_R^2=3.776 as(t)=0.3046 } CF_QCD::Coupling(pol=0) { t=3.24, \mu_R^2=3.24 as(t)=0.3162 } CF_QCD::Coupling(pol=0) { t=2.709, \mu_R^2=2.709 as(t)=0.331 } CF_QCD::Coupling(pol=0) { t=2.668, \mu_R^2=2.668 as(t)=0.3324 } CF_QCD::Coupling(pol=0) { t=2.388, \mu_R^2=2.388 as(t)=0.3424 } CF_QCD::Coupling(pol=0) { t=2.359, \mu_R^2=2.359 as(t)=0.3436 } CF_QCD::Coupling(pol=0) { t=2.113, \mu_R^2=2.113 as(t)=0.3543 } CF_QCD::Coupling(pol=0) { t=2.087, \mu_R^2=2.087 as(t)=0.3556 } CF_QCD::Coupling(pol=0) { t=2.059, \mu_R^2=2.059 as(t)=0.357 } CF_QCD::Coupling(pol=0) { t=1.964, \mu_R^2=1.964 as(t)=0.361 } CF_QCD::Coupling(pol=0) { t=1.839, \mu_R^2=1.839 as(t)=0.3691 } CF_QCD::Coupling(pol=0) { t=1.834, \mu_R^2=1.834 as(t)=0.3694 } CF_QCD::Coupling(pol=0) { t=1.833, \mu_R^2=1.833 as(t)=0.3695 } CF_QCD::Coupling(pol=0) { t=1.647, \mu_R^2=1.647 as(t)=0.3837 } CF_QCD::Coupling(pol=0) { t=1.608, \mu_R^2=1.608 as(t)=0.3871 } CF_QCD::Coupling(pol=0) { t=1.578, \mu_R^2=1.578 as(t)=0.3898 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.437, \mu_R^2=1.437 as(t)=0.4039 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.43, \mu_R^2=1.43 as(t)=0.4047 } CF_QCD::Coupling(pol=0) { t=1.277, \mu_R^2=1.277 as(t)=0.4236 } CF_QCD::Coupling(pol=0) { t=1.267, \mu_R^2=1.267 as(t)=0.425 } CF_QCD::Coupling(pol=0) { t=1.175, \mu_R^2=1.175 as(t)=0.4389 } CF_QCD::Coupling(pol=0) { t=1.099, \mu_R^2=1.099 as(t)=0.4522 } CF_QCD::Coupling(pol=0) { t=1.097, \mu_R^2=1.097 as(t)=0.4527 } CF_QCD::Coupling(pol=0) { t=1.095, \mu_R^2=1.095 as(t)=0.4531 } CF_QCD::Coupling(pol=0) { t=1.02, \mu_R^2=1.02 as(t)=0.4686 } CF_QCD::Coupling(pol=0) { t=1.019, \mu_R^2=1.019 as(t)=0.4688 } CF_QCD::Coupling(pol=0) { t=0.9915, \mu_R^2=0.9915 as(t)=0.475 } CF_QCD::Coupling(pol=0) { t=0.9796, \mu_R^2=0.9796 as(t)=0.4779 } CF_QCD::Coupling(pol=0) { t=0.9443, \mu_R^2=0.9443 as(t)=0.4868 } CF_QCD::Coupling(pol=0) { t=0.6071, \mu_R^2=0.6071 as(t)=0.6429 } CF_QCD::Coupling(pol=0) { t=0.5764, \mu_R^2=0.5764 as(t)=0.6705 } CF_QCD::Coupling(pol=0) { t=0.5742, \mu_R^2=0.5742 as(t)=0.6727 } CF_QCD::Coupling(pol=0) { t=0.5631, \mu_R^2=0.5631 as(t)=0.6839 } CF_QCD::Coupling(pol=0) { t=0.563, \mu_R^2=0.563 as(t)=0.684 } CF_QCD::Coupling(pol=0) { t=0.4829, \mu_R^2=0.4829 as(t)=0.7921 } CF_QCD::Coupling(pol=0) { t=0.4775, \mu_R^2=0.4775 as(t)=0.8018 } CF_QCD::Coupling(pol=0) { t=0.4769, \mu_R^2=0.4769 as(t)=0.8028 } CF_QCD::Coupling(pol=0) { t=0.475, \mu_R^2=0.475 as(t)=0.8064 } CF_QCD::Coupling(pol=0) { t=0.435, \mu_R^2=0.435 as(t)=0.8937 } CF_QCD::Coupling(pol=0) { t=0.4077, \mu_R^2=0.4077 as(t)=0.9736 } CF_QCD::Coupling(pol=0) { t=0.3965, \mu_R^2=0.3965 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3863, \mu_R^2=0.3863 as(t)=1 } CF_QCD::Coupling(pol=0) { t=3.513, \mu_R^2=3.513 as(t)=0.31 } CF_QCD::Coupling(pol=0) { t=2.177, \mu_R^2=2.177 as(t)=0.3514 } CF_QCD::Coupling(pol=0) { t=1.869, \mu_R^2=1.869 as(t)=0.367 } CF_QCD::Coupling(pol=0) { t=1.801, \mu_R^2=1.801 as(t)=0.3718 } CF_QCD::Coupling(pol=0) { t=1.176, \mu_R^2=1.176 as(t)=0.4388 } CF_QCD::Coupling(pol=0) { t=1.352, \mu_R^2=1.352 as(t)=0.4138 } CF_QCD::Coupling(pol=0) { t=4.565, \mu_R^2=4.565 as(t)=0.2915 } CF_QCD::Coupling(pol=0) { t=3.087, \mu_R^2=3.087 as(t)=0.32 } CF_QCD::Coupling(pol=0) { t=2.429, \mu_R^2=2.429 as(t)=0.3408 } CF_QCD::Coupling(pol=0) { t=1.771, \mu_R^2=1.771 as(t)=0.3739 } CF_QCD::Coupling(pol=0) { t=1.564, \mu_R^2=1.564 as(t)=0.3911 } CF_QCD::Coupling(pol=0) { t=0.97, \mu_R^2=0.97 as(t)=0.4802 } CF_QCD::Coupling(pol=0) { t=0.9619, \mu_R^2=0.9619 as(t)=0.4823 } CF_QCD::Coupling(pol=0) { t=0.6437, \mu_R^2=0.6437 as(t)=0.615 } CF_QCD::Coupling(pol=0) { t=0.551, \mu_R^2=0.551 as(t)=0.697 } CF_QCD::Coupling(pol=0) { t=0.4334, \mu_R^2=0.4334 as(t)=0.8979 } CF_QCD::Coupling(pol=0) { t=4.393, \mu_R^2=4.393 as(t)=0.2941 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.443, \mu_R^2=3.443 as(t)=0.3115 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.89, \mu_R^2=2.89 as(t)=0.3255 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.498, \mu_R^2=5.498 as(t)=0.2798 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.893, \mu_R^2=1.893 as(t)=0.3655 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.363, \mu_R^2=0.363 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.689, \mu_R^2=2.689 as(t)=0.3316 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.612, \mu_R^2=2.612 as(t)=0.3342 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=14.59, \mu_R^2=14.59 as(t)=0.2318 } CF_QCD::Coupling(pol=0) { t=1.716, \mu_R^2=1.716 as(t)=0.3781 } CF_QCD::Coupling(pol=0) { t=1.433, \mu_R^2=1.433 as(t)=0.4044 } CF_QCD::Coupling(pol=0) { t=1.239, \mu_R^2=1.239 as(t)=0.429 } CF_QCD::Coupling(pol=0) { t=1.16, \mu_R^2=1.16 as(t)=0.4414 } CF_QCD::Coupling(pol=0) { t=1.075, \mu_R^2=1.075 as(t)=0.4569 } CF_QCD::Coupling(pol=0) { t=6.555, \mu_R^2=6.555 as(t)=0.2696 } CF_QCD::Coupling(pol=0) { t=0.8207, \mu_R^2=0.8207 as(t)=0.5254 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7972, \mu_R^2=0.7972 as(t)=0.5344 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6999, \mu_R^2=0.6999 as(t)=0.58 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6724, \mu_R^2=0.6724 as(t)=0.5961 } CF_QCD::Coupling(pol=0) { t=0.6306, \mu_R^2=0.6306 as(t)=0.6244 } CF_QCD::Coupling(pol=0) { t=0.5788, \mu_R^2=0.5788 as(t)=0.6681 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4798, \mu_R^2=0.4798 as(t)=0.7977 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4345, \mu_R^2=0.4345 as(t)=0.8951 } CF_QCD::Coupling(pol=0) { t=0.388, \mu_R^2=0.388 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.811, \mu_R^2=5.811 as(t)=0.2765 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.368, \mu_R^2=4.368 as(t)=0.2945 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.897, \mu_R^2=3.897 as(t)=0.3024 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.645, \mu_R^2=2.645 as(t)=0.3331 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.605, \mu_R^2=2.605 as(t)=0.3345 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.449, \mu_R^2=2.449 as(t)=0.3401 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.732, \mu_R^2=1.732 as(t)=0.3769 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.196, \mu_R^2=1.196 as(t)=0.4356 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.144, \mu_R^2=1.144 as(t)=0.4441 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.063, \mu_R^2=1.063 as(t)=0.4595 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9396, \mu_R^2=0.9396 as(t)=0.4881 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9155, \mu_R^2=0.9155 as(t)=0.4947 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.787, \mu_R^2=0.787 as(t)=0.5385 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6995, \mu_R^2=0.6995 as(t)=0.5802 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6544, \mu_R^2=0.6544 as(t)=0.6076 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6432, \mu_R^2=0.6432 as(t)=0.6153 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5107, \mu_R^2=0.5107 as(t)=0.7482 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.472, \mu_R^2=0.472 as(t)=0.812 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4431, \mu_R^2=0.4431 as(t)=0.8736 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4108, \mu_R^2=0.4108 as(t)=0.9636 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4102, \mu_R^2=0.4102 as(t)=0.9654 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3853, \mu_R^2=0.3853 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3813, \mu_R^2=0.3813 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3741, \mu_R^2=0.3741 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3632, \mu_R^2=0.3632 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.891, \mu_R^2=5.891 as(t)=0.2757 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.206, \mu_R^2=3.206 as(t)=0.317 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.172, \mu_R^2=1.172 as(t)=0.4394 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3901, \mu_R^2=0.3901 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.364, \mu_R^2=5.364 as(t)=0.2813 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.921, \mu_R^2=4.921 as(t)=0.2867 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.716, \mu_R^2=4.716 as(t)=0.2894 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.681, \mu_R^2=4.681 as(t)=0.2899 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.872, \mu_R^2=3.872 as(t)=0.3028 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.842, \mu_R^2=3.842 as(t)=0.3034 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.736, \mu_R^2=3.736 as(t)=0.3054 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.643, \mu_R^2=3.643 as(t)=0.3072 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.587, \mu_R^2=3.587 as(t)=0.3084 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.445, \mu_R^2=3.445 as(t)=0.3114 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.438, \mu_R^2=3.438 as(t)=0.3116 } CF_QCD::Coupling(pol=0) { t=2.944, \mu_R^2=2.944 as(t)=0.3239 } CF_QCD::Coupling(pol=0) { t=2.878, \mu_R^2=2.878 as(t)=0.3258 } CF_QCD::Coupling(pol=0) { t=2.199, \mu_R^2=2.199 as(t)=0.3504 } CF_QCD::Coupling(pol=0) { t=1.673, \mu_R^2=1.673 as(t)=0.3815 } CF_QCD::Coupling(pol=0) { t=1.407, \mu_R^2=1.407 as(t)=0.4073 } CF_QCD::Coupling(pol=0) { t=1.358, \mu_R^2=1.358 as(t)=0.4131 } Emission G -> G G at kt = 3.514( 0 .. 3.955 ), z = 0.8697, y = 0.01021 for Parton 0x7ffbb5c8f250 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (2680,-1.555e-14,-7.775e-15,2680) 1.739e-14 0 (607,606)[607,606] (Initial state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb4a10d70) k_T start : 3.955 k_T test : 3.514 k_T veto : 20(4918) x_B : 0.67 Parton 0x7ffbb4a10d70 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (63.47,10.17,9.251,61.96) 1.333e-05 0 (606,610)[606,610] (Final state parton) Colour partners (0x7ffbb5c8f250,0x7ffbb5b98a20) k_T start : 3.955 k_T test : 2.143 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 12 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=2.075, \mu_R^2=2.075 as(t)=0.3562 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=49.97, \mu_R^2=49.97 as(t)=0.1938 } CF_QCD::Coupling(pol=0) { t=1.709, \mu_R^2=1.709 as(t)=0.3786 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.683, \mu_R^2=1.683 as(t)=0.3808 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.62, \mu_R^2=1.62 as(t)=0.386 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.353, \mu_R^2=1.353 as(t)=0.4136 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.348, \mu_R^2=1.348 as(t)=0.4143 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.327, \mu_R^2=1.327 as(t)=0.4169 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.247, \mu_R^2=1.247 as(t)=0.4279 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.231, \mu_R^2=1.231 as(t)=0.4302 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.089, \mu_R^2=1.089 as(t)=0.4543 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9381, \mu_R^2=0.9381 as(t)=0.4885 } CF_QCD::Coupling(pol=0) { t=0.9254, \mu_R^2=0.9254 as(t)=0.492 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9021, \mu_R^2=0.9021 as(t)=0.4986 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7408, \mu_R^2=0.7408 as(t)=0.5589 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6533, \mu_R^2=0.6533 as(t)=0.6084 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6356, \mu_R^2=0.6356 as(t)=0.6207 } CF_QCD::Coupling(pol=0) { t=0.5955, \mu_R^2=0.5955 as(t)=0.6528 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5668, \mu_R^2=0.5668 as(t)=0.6801 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5626, \mu_R^2=0.5626 as(t)=0.6845 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5501, \mu_R^2=0.5501 as(t)=0.698 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5371, \mu_R^2=0.5371 as(t)=0.7133 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5277, \mu_R^2=0.5277 as(t)=0.7249 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3936, \mu_R^2=0.3936 as(t)=1 } CF_QCD::Coupling(pol=0) { t=2.574, \mu_R^2=2.574 as(t)=0.3355 } CF_QCD::Coupling(pol=0) { t=4.454, \mu_R^2=4.454 as(t)=0.2931 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.846, \mu_R^2=3.846 as(t)=0.3033 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.823, \mu_R^2=2.823 as(t)=0.3275 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.614, \mu_R^2=1.614 as(t)=0.3866 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.557, \mu_R^2=1.557 as(t)=0.3917 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.415, \mu_R^2=1.415 as(t)=0.4064 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9729, \mu_R^2=0.9729 as(t)=0.4795 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8307, \mu_R^2=0.8307 as(t)=0.5217 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6252, \mu_R^2=0.6252 as(t)=0.6285 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5802, \mu_R^2=0.5802 as(t)=0.6668 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.49, \mu_R^2=0.49 as(t)=0.7801 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4264, \mu_R^2=0.4264 as(t)=0.9168 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3814, \mu_R^2=0.3814 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.872, \mu_R^2=3.872 as(t)=0.3028 } CF_QCD::Coupling(pol=0) { t=3.72, \mu_R^2=3.72 as(t)=0.3057 } CF_QCD::Coupling(pol=0) { t=3.55, \mu_R^2=3.55 as(t)=0.3092 } CF_QCD::Coupling(pol=0) { t=2.719, \mu_R^2=2.719 as(t)=0.3307 } CF_QCD::Coupling(pol=0) { t=3.349, \mu_R^2=3.349 as(t)=0.3136 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.652, \mu_R^2=1.652 as(t)=0.3833 } CF_QCD::Coupling(pol=0) { t=1.209, \mu_R^2=1.209 as(t)=0.4335 } CF_QCD::Coupling(pol=0) { t=0.9203, \mu_R^2=0.9203 as(t)=0.4934 } CF_QCD::Coupling(pol=0) { t=0.6999, \mu_R^2=0.6999 as(t)=0.5799 } CF_QCD::Coupling(pol=0) { t=4.473, \mu_R^2=4.473 as(t)=0.2929 } CF_QCD::Coupling(pol=0) { t=5.625, \mu_R^2=5.625 as(t)=0.2784 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.158, \mu_R^2=3.158 as(t)=0.3182 } CF_QCD::Coupling(pol=0) { t=2.166, \mu_R^2=2.166 as(t)=0.3519 } CF_QCD::Coupling(pol=0) { t=2.092, \mu_R^2=2.092 as(t)=0.3554 } CF_QCD::Coupling(pol=0) { t=1.997, \mu_R^2=1.997 as(t)=0.359 } CF_QCD::Coupling(pol=0) { t=1.564, \mu_R^2=1.564 as(t)=0.3911 } CF_QCD::Coupling(pol=0) { t=1.325, \mu_R^2=1.325 as(t)=0.4172 } CF_QCD::Coupling(pol=0) { t=1.193, \mu_R^2=1.193 as(t)=0.4361 } CF_QCD::Coupling(pol=0) { t=0.9088, \mu_R^2=0.9088 as(t)=0.4967 } CF_QCD::Coupling(pol=0) { t=5.268, \mu_R^2=5.268 as(t)=0.2824 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.706, \mu_R^2=3.706 as(t)=0.306 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.635, \mu_R^2=3.635 as(t)=0.3074 } CF_QCD::Coupling(pol=0) { t=3.095, \mu_R^2=3.095 as(t)=0.3198 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.493, \mu_R^2=1.493 as(t)=0.398 } CF_QCD::Coupling(pol=0) { t=0.7832, \mu_R^2=0.7832 as(t)=0.54 } CF_QCD::Coupling(pol=0) { t=0.4596, \mu_R^2=0.4596 as(t)=0.8366 } CF_QCD::Coupling(pol=0) { t=3.62, \mu_R^2=3.62 as(t)=0.3077 } CF_QCD::Coupling(pol=0) { t=2.5, \mu_R^2=2.5 as(t)=0.3382 } CF_QCD::Coupling(pol=0) { t=3.337, \mu_R^2=3.337 as(t)=0.3139 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.58, \mu_R^2=3.58 as(t)=0.3086 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.446, \mu_R^2=2.446 as(t)=0.3402 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.028, \mu_R^2=2.028 as(t)=0.3586 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6656, \mu_R^2=0.6656 as(t)=0.6003 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4848, \mu_R^2=0.4848 as(t)=0.7888 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.395, \mu_R^2=2.395 as(t)=0.3421 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.347, \mu_R^2=2.347 as(t)=0.344 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.222, \mu_R^2=2.222 as(t)=0.3494 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.907, \mu_R^2=1.907 as(t)=0.3646 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9546, \mu_R^2=0.9546 as(t)=0.4842 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.892, \mu_R^2=0.892 as(t)=0.5016 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7214, \mu_R^2=0.7214 as(t)=0.5685 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.34, \mu_R^2=2.34 as(t)=0.3444 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.293, \mu_R^2=2.293 as(t)=0.3463 } CF_QCD::Coupling(pol=0) { t=2.227, \mu_R^2=2.227 as(t)=0.3491 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.204, \mu_R^2=2.204 as(t)=0.3501 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.922, \mu_R^2=1.922 as(t)=0.3635 } CF_QCD::Coupling(pol=0) { t=1.865, \mu_R^2=1.865 as(t)=0.3673 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.655, \mu_R^2=1.655 as(t)=0.383 } CF_QCD::Coupling(pol=0) { t=1.505, \mu_R^2=1.505 as(t)=0.3968 } CF_QCD::Coupling(pol=0) { t=1.397, \mu_R^2=1.397 as(t)=0.4084 } CF_QCD::Coupling(pol=0) { t=1.301, \mu_R^2=1.301 as(t)=0.4204 } CF_QCD::Coupling(pol=0) { t=4.168, \mu_R^2=4.168 as(t)=0.2976 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.465, \mu_R^2=3.465 as(t)=0.311 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.112, \mu_R^2=2.112 as(t)=0.3544 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.112, \mu_R^2=2.112 as(t)=0.3544 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.061, \mu_R^2=2.061 as(t)=0.3569 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.845, \mu_R^2=1.845 as(t)=0.3687 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.752, \mu_R^2=1.752 as(t)=0.3753 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.705, \mu_R^2=1.705 as(t)=0.379 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.545, \mu_R^2=1.545 as(t)=0.3928 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.388, \mu_R^2=1.388 as(t)=0.4094 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9321, \mu_R^2=0.9321 as(t)=0.4901 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8758, \mu_R^2=0.8758 as(t)=0.5066 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7831, \mu_R^2=0.7831 as(t)=0.5401 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7794, \mu_R^2=0.7794 as(t)=0.5416 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7173, \mu_R^2=0.7173 as(t)=0.5706 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6556, \mu_R^2=0.6556 as(t)=0.6069 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6539, \mu_R^2=0.6539 as(t)=0.608 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5713, \mu_R^2=0.5713 as(t)=0.6755 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.564, \mu_R^2=0.564 as(t)=0.6829 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5307, \mu_R^2=0.5307 as(t)=0.7211 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5016, \mu_R^2=0.5016 as(t)=0.7616 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4787, \mu_R^2=0.4787 as(t)=0.7997 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4767, \mu_R^2=0.4767 as(t)=0.8033 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4579, \mu_R^2=0.4579 as(t)=0.8402 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4428, \mu_R^2=0.4428 as(t)=0.8743 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4279, \mu_R^2=0.4279 as(t)=0.9126 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8563, \mu_R^2=0.8563 as(t)=0.5129 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8017, \mu_R^2=0.8017 as(t)=0.5326 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.652, \mu_R^2=0.652 as(t)=0.6092 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4274, \mu_R^2=0.4274 as(t)=0.914 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4031, \mu_R^2=0.4031 as(t)=0.9894 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.786, \mu_R^2=3.786 as(t)=0.3044 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.595, \mu_R^2=3.595 as(t)=0.3082 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.49, \mu_R^2=3.49 as(t)=0.3105 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.409, \mu_R^2=3.409 as(t)=0.3123 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.637, \mu_R^2=2.637 as(t)=0.3334 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.42, \mu_R^2=2.42 as(t)=0.3412 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.351, \mu_R^2=2.351 as(t)=0.3439 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.692, \mu_R^2=4.692 as(t)=0.2897 } CF_QCD::Coupling(pol=0) { t=3.716, \mu_R^2=3.716 as(t)=0.3058 } CF_QCD::Coupling(pol=0) { t=2.672, \mu_R^2=2.672 as(t)=0.3322 } CF_QCD::Coupling(pol=0) { t=1.721, \mu_R^2=1.721 as(t)=0.3777 } CF_QCD::Coupling(pol=0) { t=1.46, \mu_R^2=1.46 as(t)=0.4014 } CF_QCD::Coupling(pol=0) { t=1.226, \mu_R^2=1.226 as(t)=0.431 } CF_QCD::Coupling(pol=0) { t=0.9419, \mu_R^2=0.9419 as(t)=0.4875 } CF_QCD::Coupling(pol=0) { t=0.3845, \mu_R^2=0.3845 as(t)=1 } Emission G -> G G at kt = 2.61( 0 .. 3.514 ), z = 0.9333, y = 0.004787 for Parton 0x7ffbb5cd5a40 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(1)]: G : (2803,0,0,-2803) 0 0 (603,605)[603,605] (Initial state parton) Colour partners (0x7ffbb5cb9580,0x7ffbb5cea450) k_T start : 3.514 k_T test : 2.61 k_T veto : 20(4918) x_B : 0.7008 Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: ub : (54.67,18.42,6.039,-51.11) 8.231e-06 0 (0,603)[0,603] (Final state parton) Colour partners (0x0,0x7ffbb5cd5a40) k_T start : 3.514 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 13 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=1.139, \mu_R^2=1.139 as(t)=0.445 } CF_QCD::Coupling(pol=0) { t=1.054, \mu_R^2=1.054 as(t)=0.4612 } CF_QCD::Coupling(pol=0) { t=0.9926, \mu_R^2=0.9926 as(t)=0.4748 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9389, \mu_R^2=0.9389 as(t)=0.4883 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8144, \mu_R^2=0.8144 as(t)=0.5277 } CF_QCD::Coupling(pol=0) { t=0.687, \mu_R^2=0.687 as(t)=0.5873 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6267, \mu_R^2=0.6267 as(t)=0.6274 } CF_QCD::Coupling(pol=0) { t=0.5368, \mu_R^2=0.5368 as(t)=0.7136 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5272, \mu_R^2=0.5272 as(t)=0.7256 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4804, \mu_R^2=0.4804 as(t)=0.7965 } CF_QCD::Coupling(pol=0) { t=0.4536, \mu_R^2=0.4536 as(t)=0.8496 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.422, \mu_R^2=2.422 as(t)=0.3411 } CF_QCD::Coupling(pol=0) { t=2.344, \mu_R^2=2.344 as(t)=0.3442 } CF_QCD::Coupling(pol=0) { t=1.89, \mu_R^2=1.89 as(t)=0.3656 } CF_QCD::Coupling(pol=0) { t=1.672, \mu_R^2=1.672 as(t)=0.3817 } CF_QCD::Coupling(pol=0) { t=1.022, \mu_R^2=1.022 as(t)=0.468 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9482, \mu_R^2=0.9482 as(t)=0.4858 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9368, \mu_R^2=0.9368 as(t)=0.4889 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.807, \mu_R^2=0.807 as(t)=0.5305 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7001, \mu_R^2=0.7001 as(t)=0.5798 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6212, \mu_R^2=0.6212 as(t)=0.6316 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.89, \mu_R^2=1.89 as(t)=0.3656 } CF_QCD::Coupling(pol=0) { t=1.79, \mu_R^2=1.79 as(t)=0.3726 } CF_QCD::Coupling(pol=0) { t=1.336, \mu_R^2=1.336 as(t)=0.4157 } CF_QCD::Coupling(pol=0) { t=1.229, \mu_R^2=1.229 as(t)=0.4304 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8183, \mu_R^2=0.8183 as(t)=0.5263 } CF_QCD::Coupling(pol=0) { t=0.7247, \mu_R^2=0.7247 as(t)=0.5668 } CF_QCD::Coupling(pol=0) { t=0.5369, \mu_R^2=0.5369 as(t)=0.7135 } CF_QCD::Coupling(pol=0) { t=0.4677, \mu_R^2=0.4677 as(t)=0.8202 } CF_QCD::Coupling(pol=0) { t=0.3661, \mu_R^2=0.3661 as(t)=1 } CF_QCD::Coupling(pol=0) { t=2.084, \mu_R^2=2.084 as(t)=0.3558 } CF_QCD::Coupling(pol=0) { t=2.41, \mu_R^2=2.41 as(t)=0.3415 } CF_QCD::Coupling(pol=0) { t=2.3, \mu_R^2=2.3 as(t)=0.346 } CF_QCD::Coupling(pol=0) { t=1.736, \mu_R^2=1.736 as(t)=0.3766 } CF_QCD::Coupling(pol=0) { t=1.559, \mu_R^2=1.559 as(t)=0.3915 } CF_QCD::Coupling(pol=0) { t=1.403, \mu_R^2=1.403 as(t)=0.4077 } CF_QCD::Coupling(pol=0) { t=1.199, \mu_R^2=1.199 as(t)=0.4351 } CF_QCD::Coupling(pol=0) { t=1.073, \mu_R^2=1.073 as(t)=0.4573 } CF_QCD::Coupling(pol=0) { t=0.9217, \mu_R^2=0.9217 as(t)=0.493 } CF_QCD::Coupling(pol=0) { t=0.7914, \mu_R^2=0.7914 as(t)=0.5367 } CF_QCD::Coupling(pol=0) { t=0.7099, \mu_R^2=0.7099 as(t)=0.5745 } CF_QCD::Coupling(pol=0) { t=0.5065, \mu_R^2=0.5065 as(t)=0.7543 } CF_QCD::Coupling(pol=0) { t=0.4868, \mu_R^2=0.4868 as(t)=0.7855 } CF_QCD::Coupling(pol=0) { t=1.303, \mu_R^2=1.303 as(t)=0.4201 } CF_QCD::Coupling(pol=0) { t=1.867, \mu_R^2=1.867 as(t)=0.3671 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.632, \mu_R^2=1.632 as(t)=0.385 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.525, \mu_R^2=1.525 as(t)=0.3948 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9744, \mu_R^2=0.9744 as(t)=0.4792 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7123, \mu_R^2=0.7123 as(t)=0.5732 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.273, \mu_R^2=1.273 as(t)=0.4241 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.231, \mu_R^2=1.231 as(t)=0.4303 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9253, \mu_R^2=0.9253 as(t)=0.492 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.861, \mu_R^2=0.861 as(t)=0.5114 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7918, \mu_R^2=0.7918 as(t)=0.5365 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6494, \mu_R^2=0.6494 as(t)=0.611 } CF_QCD::Coupling(pol=0) { t=0.5174, \mu_R^2=0.5174 as(t)=0.7387 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5132, \mu_R^2=0.5132 as(t)=0.7446 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.208, \mu_R^2=2.208 as(t)=0.35 } CF_QCD::Coupling(pol=0) { t=2.089, \mu_R^2=2.089 as(t)=0.3555 } CF_QCD::Coupling(pol=0) { t=1.688, \mu_R^2=1.688 as(t)=0.3804 } CF_QCD::Coupling(pol=0) { t=1.574, \mu_R^2=1.574 as(t)=0.3902 } CF_QCD::Coupling(pol=0) { t=1.543, \mu_R^2=1.543 as(t)=0.3931 } CF_QCD::Coupling(pol=0) { t=1.401, \mu_R^2=1.401 as(t)=0.408 } CF_QCD::Coupling(pol=0) { t=1.339, \mu_R^2=1.339 as(t)=0.4154 } CF_QCD::Coupling(pol=0) { t=1.133, \mu_R^2=1.133 as(t)=0.4461 } CF_QCD::Coupling(pol=0) { t=1.101, \mu_R^2=1.101 as(t)=0.4519 } CF_QCD::Coupling(pol=0) { t=2.467, \mu_R^2=2.467 as(t)=0.3394 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.229, \mu_R^2=2.229 as(t)=0.349 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.125, \mu_R^2=2.125 as(t)=0.3538 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.998, \mu_R^2=1.998 as(t)=0.3589 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.876, \mu_R^2=1.876 as(t)=0.3666 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.789, \mu_R^2=1.789 as(t)=0.3726 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.427, \mu_R^2=1.427 as(t)=0.405 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.346, \mu_R^2=1.346 as(t)=0.4146 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.821, \mu_R^2=1.821 as(t)=0.3703 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5393, \mu_R^2=0.5393 as(t)=0.7106 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4786, \mu_R^2=0.4786 as(t)=0.7998 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.982, \mu_R^2=1.982 as(t)=0.3599 } CF_QCD::Coupling(pol=0) { t=1.585, \mu_R^2=1.585 as(t)=0.3892 } CF_QCD::Coupling(pol=0) { t=1.296, \mu_R^2=1.296 as(t)=0.4211 } Emission G -> G G at kt = 2.336( 0 .. 2.61 ), z = 0.1235, y = 0.249 for Parton 0x7ffbb5b98a20 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (4.533,2.144,-2.042,3.433) 9.755e-06 0 (610,602)[610,602] (Final state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb5cc1bf0) k_T start : 2.61 k_T test : 2.336 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (94.98,13.46,9.996,93.49) 1.449e-05 0 (606,610)[606,610] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb5b98a20) k_T start : 2.61 k_T test : 2.143 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 14 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.5606, \mu_R^2=0.5606 as(t)=0.6865 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.42, \mu_R^2=0.42 as(t)=0.9351 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.737, \mu_R^2=1.737 as(t)=0.3765 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.666, \mu_R^2=1.666 as(t)=0.3821 } CF_QCD::Coupling(pol=0) { t=1.334, \mu_R^2=1.334 as(t)=0.416 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.291, \mu_R^2=1.291 as(t)=0.4217 } CF_QCD::Coupling(pol=0) { t=1.196, \mu_R^2=1.196 as(t)=0.4355 } CF_QCD::Coupling(pol=0) { t=1.134, \mu_R^2=1.134 as(t)=0.4459 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.093, \mu_R^2=1.093 as(t)=0.4534 } CF_QCD::Coupling(pol=0) { t=1.071, \mu_R^2=1.071 as(t)=0.4578 } CF_QCD::Coupling(pol=0) { t=1.032, \mu_R^2=1.032 as(t)=0.4659 } CF_QCD::Coupling(pol=0) { t=0.941, \mu_R^2=0.941 as(t)=0.4877 } CF_QCD::Coupling(pol=0) { t=0.936, \mu_R^2=0.936 as(t)=0.4891 } CF_QCD::Coupling(pol=0) { t=0.8298, \mu_R^2=0.8298 as(t)=0.5221 } CF_QCD::Coupling(pol=0) { t=0.798, \mu_R^2=0.798 as(t)=0.534 } CF_QCD::Coupling(pol=0) { t=0.6229, \mu_R^2=0.6229 as(t)=0.6303 } CF_QCD::Coupling(pol=0) { t=0.6024, \mu_R^2=0.6024 as(t)=0.6469 } CF_QCD::Coupling(pol=0) { t=0.5966, \mu_R^2=0.5966 as(t)=0.6519 } CF_QCD::Coupling(pol=0) { t=0.5673, \mu_R^2=0.5673 as(t)=0.6796 } CF_QCD::Coupling(pol=0) { t=0.4849, \mu_R^2=0.4849 as(t)=0.7886 } CF_QCD::Coupling(pol=0) { t=0.4658, \mu_R^2=0.4658 as(t)=0.824 } CF_QCD::Coupling(pol=0) { t=0.4358, \mu_R^2=0.4358 as(t)=0.8916 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4338, \mu_R^2=0.4338 as(t)=0.8969 } CF_QCD::Coupling(pol=0) { t=0.3893, \mu_R^2=0.3893 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.374, \mu_R^2=0.374 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3649, \mu_R^2=0.3649 as(t)=1 } CF_QCD::Coupling(pol=0) { t=1.89, \mu_R^2=1.89 as(t)=0.3656 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.742, \mu_R^2=1.742 as(t)=0.3761 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.622, \mu_R^2=1.622 as(t)=0.3859 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.607, \mu_R^2=1.607 as(t)=0.3872 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.427, \mu_R^2=1.427 as(t)=0.405 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9201, \mu_R^2=0.9201 as(t)=0.4934 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6223, \mu_R^2=0.6223 as(t)=0.6308 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6106, \mu_R^2=0.6106 as(t)=0.64 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3905, \mu_R^2=0.3905 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.084, \mu_R^2=2.084 as(t)=0.3558 } CF_QCD::Coupling(pol=0) { t=1.787, \mu_R^2=1.787 as(t)=0.3727 } CF_QCD::Coupling(pol=0) { t=1.25, \mu_R^2=1.25 as(t)=0.4274 } CF_QCD::Coupling(pol=0) { t=1.572, \mu_R^2=1.572 as(t)=0.3904 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.061, \mu_R^2=1.061 as(t)=0.4597 } CF_QCD::Coupling(pol=0) { t=0.5881, \mu_R^2=0.5881 as(t)=0.6594 } CF_QCD::Coupling(pol=0) { t=1.759, \mu_R^2=1.759 as(t)=0.3748 } CF_QCD::Coupling(pol=0) { t=0.709, \mu_R^2=0.709 as(t)=0.575 } CF_QCD::Coupling(pol=0) { t=0.5721, \mu_R^2=0.5721 as(t)=0.6747 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.863, \mu_R^2=1.863 as(t)=0.3674 } CF_QCD::Coupling(pol=0) { t=1.716, \mu_R^2=1.716 as(t)=0.3781 } CF_QCD::Coupling(pol=0) { t=1.593, \mu_R^2=1.593 as(t)=0.3885 } CF_QCD::Coupling(pol=0) { t=1.09, \mu_R^2=1.09 as(t)=0.4541 } CF_QCD::Coupling(pol=0) { t=1.09, \mu_R^2=1.09 as(t)=0.4541 } CF_QCD::Coupling(pol=0) { t=1.735, \mu_R^2=1.735 as(t)=0.3766 } CF_QCD::Coupling(pol=0) { t=1.392, \mu_R^2=1.392 as(t)=0.409 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.816, \mu_R^2=1.816 as(t)=0.3707 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.537, \mu_R^2=1.537 as(t)=0.3937 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9458, \mu_R^2=0.9458 as(t)=0.4865 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5432, \mu_R^2=0.5432 as(t)=0.7059 } CF_QCD::Coupling(pol=0) { t=0.5265, \mu_R^2=0.5265 as(t)=0.7266 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4464, \mu_R^2=0.4464 as(t)=0.8659 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4279, \mu_R^2=0.4279 as(t)=0.9126 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.007, \mu_R^2=2.007 as(t)=0.3583 } CF_QCD::Coupling(pol=0) { t=1.978, \mu_R^2=1.978 as(t)=0.3601 } CF_QCD::Coupling(pol=0) { t=1.936, \mu_R^2=1.936 as(t)=0.3627 } CF_QCD::Coupling(pol=0) { t=1.822, \mu_R^2=1.822 as(t)=0.3702 } CF_QCD::Coupling(pol=0) { t=1.786, \mu_R^2=1.786 as(t)=0.3728 } CF_QCD::Coupling(pol=0) { t=1.681, \mu_R^2=1.681 as(t)=0.3809 } CF_QCD::Coupling(pol=0) { t=1.566, \mu_R^2=1.566 as(t)=0.3909 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.548, \mu_R^2=1.548 as(t)=0.3926 } CF_QCD::Coupling(pol=0) { t=1.413, \mu_R^2=1.413 as(t)=0.4066 } CF_QCD::Coupling(pol=0) { t=1.386, \mu_R^2=1.386 as(t)=0.4097 } CF_QCD::Coupling(pol=0) { t=1.281, \mu_R^2=1.281 as(t)=0.423 } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4397 } CF_QCD::Coupling(pol=0) { t=1.169, \mu_R^2=1.169 as(t)=0.4399 } CF_QCD::Coupling(pol=0) { t=0.9047, \mu_R^2=0.9047 as(t)=0.4979 } CF_QCD::Coupling(pol=0) { t=0.8735, \mu_R^2=0.8735 as(t)=0.5073 } CF_QCD::Coupling(pol=0) { t=0.693, \mu_R^2=0.693 as(t)=0.5838 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5636, \mu_R^2=0.5636 as(t)=0.6833 } CF_QCD::Coupling(pol=0) { t=0.4261, \mu_R^2=0.4261 as(t)=0.9176 } CF_QCD::Coupling(pol=0) { t=0.4218, \mu_R^2=0.4218 as(t)=0.9298 } CF_QCD::Coupling(pol=0) { t=0.3893, \mu_R^2=0.3893 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.383, \mu_R^2=0.383 as(t)=1 } CF_QCD::Coupling(pol=0) { t=2.063, \mu_R^2=2.063 as(t)=0.3568 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.999, \mu_R^2=1.999 as(t)=0.3589 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.709, \mu_R^2=1.709 as(t)=0.3787 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.455, \mu_R^2=1.455 as(t)=0.4019 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.19, \mu_R^2=1.19 as(t)=0.4366 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.045, \mu_R^2=1.045 as(t)=0.463 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6964, \mu_R^2=0.6964 as(t)=0.5819 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6934, \mu_R^2=0.6934 as(t)=0.5836 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.417, \mu_R^2=0.417 as(t)=0.9442 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3777, \mu_R^2=0.3777 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.779, \mu_R^2=1.779 as(t)=0.3733 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8662, \mu_R^2=0.8662 as(t)=0.5097 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.566, \mu_R^2=0.566 as(t)=0.6809 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4443, \mu_R^2=0.4443 as(t)=0.8708 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.001, \mu_R^2=1.001 as(t)=0.4728 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5393, \mu_R^2=0.5393 as(t)=0.7105 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3912, \mu_R^2=0.3912 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.006, \mu_R^2=2.006 as(t)=0.3584 } CF_QCD::Coupling(pol=0) { t=1.964, \mu_R^2=1.964 as(t)=0.3609 } CF_QCD::Coupling(pol=0) { t=1.39, \mu_R^2=1.39 as(t)=0.4092 } CF_QCD::Coupling(pol=0) { t=0.9157, \mu_R^2=0.9157 as(t)=0.4947 } Emission G -> G G at kt = 2.131( 0 .. 2.336 ), z = 0.9526, y = 0.1493 for Parton 0x7ffbb4a16550 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (19.38,-18.24,3.488,5.557) 3.546e-06 0 (609,500)[609,500] (Final state parton) Colour partners (0x7ffbb5b98890,0x7ffbb4a6c7f0) k_T start : 2.336 k_T test : 2.131 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a6c7f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (11.43,2.718,-9.385,-5.937) 5.717e-07 0 (500,608)[500,608] (Final state parton) Colour partners (0x7ffbb4a16550,0x7ffbb5d8b430) k_T start : 2.336 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 15 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.7594, \mu_R^2=0.7594 as(t)=0.5503 } CF_QCD::Coupling(pol=0) { t=0.4978, \mu_R^2=0.4978 as(t)=0.7675 } CF_QCD::Coupling(pol=0) { t=1.435, \mu_R^2=1.435 as(t)=0.4041 } CF_QCD::Coupling(pol=0) { t=1.296, \mu_R^2=1.296 as(t)=0.421 } CF_QCD::Coupling(pol=0) { t=1.206, \mu_R^2=1.206 as(t)=0.434 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.111, \mu_R^2=1.111 as(t)=0.45 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.974, \mu_R^2=0.974 as(t)=0.4793 } CF_QCD::Coupling(pol=0) { t=0.9116, \mu_R^2=0.9116 as(t)=0.4958 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8147, \mu_R^2=0.8147 as(t)=0.5276 } CF_QCD::Coupling(pol=0) { t=0.7925, \mu_R^2=0.7925 as(t)=0.5362 } CF_QCD::Coupling(pol=0) { t=0.7097, \mu_R^2=0.7097 as(t)=0.5746 } CF_QCD::Coupling(pol=0) { t=0.6844, \mu_R^2=0.6844 as(t)=0.5888 } CF_QCD::Coupling(pol=0) { t=0.6505, \mu_R^2=0.6505 as(t)=0.6103 } CF_QCD::Coupling(pol=0) { t=0.3915, \mu_R^2=0.3915 as(t)=1 } CF_QCD::Coupling(pol=0) { t=1.069, \mu_R^2=1.069 as(t)=0.4582 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.008, \mu_R^2=1.008 as(t)=0.4712 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9967, \mu_R^2=0.9967 as(t)=0.4738 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.879, \mu_R^2=0.879 as(t)=0.5056 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6391, \mu_R^2=0.6391 as(t)=0.6182 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5837, \mu_R^2=0.5837 as(t)=0.6635 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.538, \mu_R^2=0.538 as(t)=0.7121 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4695, \mu_R^2=0.4695 as(t)=0.8168 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4635, \mu_R^2=0.4635 as(t)=0.8287 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4534, \mu_R^2=0.4534 as(t)=0.8499 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.606, \mu_R^2=1.606 as(t)=0.3873 } CF_QCD::Coupling(pol=0) { t=1.142, \mu_R^2=1.142 as(t)=0.4445 } CF_QCD::Coupling(pol=0) { t=0.5562, \mu_R^2=0.5562 as(t)=0.6913 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.408, \mu_R^2=1.408 as(t)=0.4071 } CF_QCD::Coupling(pol=0) { t=1.111, \mu_R^2=1.111 as(t)=0.4501 } CF_QCD::Coupling(pol=0) { t=0.8342, \mu_R^2=0.8342 as(t)=0.5205 } CF_QCD::Coupling(pol=0) { t=1.462, \mu_R^2=1.462 as(t)=0.4012 } CF_QCD::Coupling(pol=0) { t=0.7007, \mu_R^2=0.7007 as(t)=0.5795 } CF_QCD::Coupling(pol=0) { t=0.5496, \mu_R^2=0.5496 as(t)=0.6985 } CF_QCD::Coupling(pol=0) { t=1.294, \mu_R^2=1.294 as(t)=0.4212 } CF_QCD::Coupling(pol=0) { t=1.095, \mu_R^2=1.095 as(t)=0.453 } CF_QCD::Coupling(pol=0) { t=0.8622, \mu_R^2=0.8622 as(t)=0.511 } CF_QCD::Coupling(pol=0) { t=0.7862, \mu_R^2=0.7862 as(t)=0.5388 } CF_QCD::Coupling(pol=0) { t=1.363, \mu_R^2=1.363 as(t)=0.4125 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.167, \mu_R^2=1.167 as(t)=0.4402 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3655, \mu_R^2=0.3655 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.525, \mu_R^2=1.525 as(t)=0.3948 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.29, \mu_R^2=1.29 as(t)=0.4218 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.174, \mu_R^2=1.174 as(t)=0.4391 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4398 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.677, \mu_R^2=0.677 as(t)=0.5932 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6715, \mu_R^2=0.6715 as(t)=0.5966 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4882, \mu_R^2=0.4882 as(t)=0.7831 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8252, \mu_R^2=0.8252 as(t)=0.5237 } CF_QCD::Coupling(pol=0) { t=0.7362, \mu_R^2=0.7362 as(t)=0.5611 } CF_QCD::Coupling(pol=0) { t=0.5009, \mu_R^2=0.5009 as(t)=0.7628 } CF_QCD::Coupling(pol=0) { t=1.491, \mu_R^2=1.491 as(t)=0.3982 } CF_QCD::Coupling(pol=0) { t=1.252, \mu_R^2=1.252 as(t)=0.4271 } CF_QCD::Coupling(pol=0) { t=1.099, \mu_R^2=1.099 as(t)=0.4523 } CF_QCD::Coupling(pol=0) { t=0.9263, \mu_R^2=0.9263 as(t)=0.4917 } CF_QCD::Coupling(pol=0) { t=0.835, \mu_R^2=0.835 as(t)=0.5202 } CF_QCD::Coupling(pol=0) { t=0.6862, \mu_R^2=0.6862 as(t)=0.5878 } CF_QCD::Coupling(pol=0) { t=0.6446, \mu_R^2=0.6446 as(t)=0.6143 } CF_QCD::Coupling(pol=0) { t=1.588, \mu_R^2=1.588 as(t)=0.3889 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.231, \mu_R^2=1.231 as(t)=0.4302 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.226, \mu_R^2=1.226 as(t)=0.4309 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.272, \mu_R^2=1.272 as(t)=0.4243 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9975, \mu_R^2=0.9975 as(t)=0.4736 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5842, \mu_R^2=0.5842 as(t)=0.6631 } CF_QCD::Coupling(pol=0) { t=0.4231, \mu_R^2=0.4231 as(t)=0.926 } Emission G -> d db at kt = 1.889( 0 .. 2.131 ), z = 0.1667, y = 0.03547 for Parton 0x7ffbb5d01290 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (1.748,0.9541,-0.8877,1.165) 2.502e-07 0 (614,500)[614,500] (Final state parton) Colour partners (0x7ffbb5cf9c80,0x7ffbb4a6c7f0) k_T start : 2.131 k_T test : 1.889 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf9c80 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (19.34,-18.78,2.975,3.506) 3.332e-06 0 (609,614)[609,614] (Final state parton) Colour partners (0x7ffbb5b98890,0x7ffbb5d01290) k_T start : 2.131 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 16 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.6809, \mu_R^2=0.6809 as(t)=0.5909 } CF_QCD::Coupling(pol=0) { t=0.6222, \mu_R^2=0.6222 as(t)=0.6308 } CF_QCD::Coupling(pol=0) { t=1.1, \mu_R^2=1.1 as(t)=0.4521 } CF_QCD::Coupling(pol=0) { t=1.099, \mu_R^2=1.099 as(t)=0.4523 } CF_QCD::Coupling(pol=0) { t=0.9476, \mu_R^2=0.9476 as(t)=0.486 } CF_QCD::Coupling(pol=0) { t=0.9211, \mu_R^2=0.9211 as(t)=0.4932 } CF_QCD::Coupling(pol=0) { t=0.7216, \mu_R^2=0.7216 as(t)=0.5684 } CF_QCD::Coupling(pol=0) { t=0.6465, \mu_R^2=0.6465 as(t)=0.6131 } CF_QCD::Coupling(pol=0) { t=0.5169, \mu_R^2=0.5169 as(t)=0.7394 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.237, \mu_R^2=1.237 as(t)=0.4293 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8706, \mu_R^2=0.8706 as(t)=0.5083 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6185, \mu_R^2=0.6185 as(t)=0.6337 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.541, \mu_R^2=0.541 as(t)=0.7086 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5275, \mu_R^2=0.5275 as(t)=0.7253 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4218, \mu_R^2=0.4218 as(t)=0.9297 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3893, \mu_R^2=0.3893 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3839, \mu_R^2=0.3839 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3652, \mu_R^2=0.3652 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6632, \mu_R^2=0.6632 as(t)=0.6019 } CF_QCD::Coupling(pol=0) { t=0.5701, \mu_R^2=0.5701 as(t)=0.6767 } CF_QCD::Coupling(pol=0) { t=0.692, \mu_R^2=0.692 as(t)=0.5844 } CF_QCD::Coupling(pol=0) { t=0.5892, \mu_R^2=0.5892 as(t)=0.6584 } CF_QCD::Coupling(pol=0) { t=0.4367, \mu_R^2=0.4367 as(t)=0.8894 } CF_QCD::Coupling(pol=0) { t=0.4277, \mu_R^2=0.4277 as(t)=0.9132 } CF_QCD::Coupling(pol=0) { t=0.907, \mu_R^2=0.907 as(t)=0.4972 } CF_QCD::Coupling(pol=0) { t=0.6385, \mu_R^2=0.6385 as(t)=0.6187 } CF_QCD::Coupling(pol=0) { t=0.4729, \mu_R^2=0.4729 as(t)=0.8102 } CF_QCD::Coupling(pol=0) { t=0.4194, \mu_R^2=0.4194 as(t)=0.9369 } CF_QCD::Coupling(pol=0) { t=0.3656, \mu_R^2=0.3656 as(t)=1 } CF_QCD::Coupling(pol=0) { t=1.348, \mu_R^2=1.348 as(t)=0.4143 } CF_QCD::Coupling(pol=0) { t=1.264, \mu_R^2=1.264 as(t)=0.4254 } CF_QCD::Coupling(pol=0) { t=1.244, \mu_R^2=1.244 as(t)=0.4282 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.223, \mu_R^2=1.223 as(t)=0.4314 } CF_QCD::Coupling(pol=0) { t=1.098, \mu_R^2=1.098 as(t)=0.4526 } CF_QCD::Coupling(pol=0) { t=0.4571, \mu_R^2=0.4571 as(t)=0.8419 } CF_QCD::Coupling(pol=0) { t=0.4508, \mu_R^2=0.4508 as(t)=0.8557 } CF_QCD::Coupling(pol=0) { t=0.4964, \mu_R^2=0.4964 as(t)=0.7697 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.077, \mu_R^2=1.077 as(t)=0.4566 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7908, \mu_R^2=0.7908 as(t)=0.5369 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7785, \mu_R^2=0.7785 as(t)=0.542 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.279, \mu_R^2=1.279 as(t)=0.4233 } CF_QCD::Coupling(pol=0) { t=1.126, \mu_R^2=1.126 as(t)=0.4473 } CF_QCD::Coupling(pol=0) { t=0.9091, \mu_R^2=0.9091 as(t)=0.4966 } CF_QCD::Coupling(pol=0) { t=0.8831, \mu_R^2=0.8831 as(t)=0.5043 } CF_QCD::Coupling(pol=0) { t=0.7931, \mu_R^2=0.7931 as(t)=0.536 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6596, \mu_R^2=0.6596 as(t)=0.6042 } CF_QCD::Coupling(pol=0) { t=0.5203, \mu_R^2=0.5203 as(t)=0.7347 } CF_QCD::Coupling(pol=0) { t=0.4088, \mu_R^2=0.4088 as(t)=0.97 } CF_QCD::Coupling(pol=0) { t=0.4033, \mu_R^2=0.4033 as(t)=0.9887 } CF_QCD::Coupling(pol=0) { t=0.4021, \mu_R^2=0.4021 as(t)=0.993 } CF_QCD::Coupling(pol=0) { t=0.3927, \mu_R^2=0.3927 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3629, \mu_R^2=0.3629 as(t)=1 } CF_QCD::Coupling(pol=0) { t=1.32, \mu_R^2=1.32 as(t)=0.4178 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9785, \mu_R^2=0.9785 as(t)=0.4782 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9112, \mu_R^2=0.9112 as(t)=0.496 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8494, \mu_R^2=0.8494 as(t)=0.5152 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6741, \mu_R^2=0.6741 as(t)=0.595 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6094, \mu_R^2=0.6094 as(t)=0.641 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4869, \mu_R^2=0.4869 as(t)=0.7853 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4795, \mu_R^2=0.4795 as(t)=0.7982 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4649, \mu_R^2=0.4649 as(t)=0.8258 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4548, \mu_R^2=0.4548 as(t)=0.8469 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4481, \mu_R^2=0.4481 as(t)=0.8618 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4258, \mu_R^2=0.4258 as(t)=0.9185 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.383, \mu_R^2=0.383 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3698, \mu_R^2=0.3698 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.191, \mu_R^2=1.191 as(t)=0.4364 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.8307, \mu_R^2=0.8307 as(t)=0.5217 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6812, \mu_R^2=0.6812 as(t)=0.5907 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5638, \mu_R^2=0.5638 as(t)=0.6831 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7998, \mu_R^2=0.7998 as(t)=0.5333 } CF_QCD::Coupling(pol=0) { t=0.6522, \mu_R^2=0.6522 as(t)=0.6092 } Emission d -> d G at kt = 1.439( 0 .. 1.889 ), z = 0.947, y = 0.02699 for Parton 0x7ffbb5cc1bf0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: d : (67.42,-49.78,-39.95,21.72) 2.218e-05 0 (602,0)[602,0] (Final state parton) Colour partners (0x7ffbb5cd5a40,0x0) k_T start : 1.889 k_T test : 1.439 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cd5a40 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (13.24,4.253,-2.895,12.2) 8.062e-06 0 (613,602)[613,602] (Final state parton) Colour partners (0x7ffbb5d01100,0x7ffbb5cc1bf0) k_T start : 1.889 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 17 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.6769, \mu_R^2=0.6769 as(t)=0.5933 } CF_QCD::Coupling(pol=0) { t=0.5094, \mu_R^2=0.5094 as(t)=0.75 } CF_QCD::Coupling(pol=0) { t=0.4535, \mu_R^2=0.4535 as(t)=0.8497 } CF_QCD::Coupling(pol=0) { t=0.44, \mu_R^2=0.44 as(t)=0.881 } CF_QCD::Coupling(pol=0) { t=0.4335, \mu_R^2=0.4335 as(t)=0.8977 } CF_QCD::Coupling(pol=0) { t=0.4192, \mu_R^2=0.4192 as(t)=0.9374 } CF_QCD::Coupling(pol=0) { t=0.6816, \mu_R^2=0.6816 as(t)=0.5905 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6547, \mu_R^2=0.6547 as(t)=0.6075 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6246, \mu_R^2=0.6246 as(t)=0.629 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6216, \mu_R^2=0.6216 as(t)=0.6313 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5757, \mu_R^2=0.5757 as(t)=0.6712 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5205, \mu_R^2=0.5205 as(t)=0.7344 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4739, \mu_R^2=0.4739 as(t)=0.8085 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4609, \mu_R^2=0.4609 as(t)=0.8339 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.39, \mu_R^2=0.39 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.384, \mu_R^2=0.384 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7729, \mu_R^2=0.7729 as(t)=0.5444 } CF_QCD::Coupling(pol=0) { t=0.5605, \mu_R^2=0.5605 as(t)=0.6866 } CF_QCD::Coupling(pol=0) { t=0.434, \mu_R^2=0.434 as(t)=0.8964 } CF_QCD::Coupling(pol=0) { t=0.4188, \mu_R^2=0.4188 as(t)=0.9386 } CF_QCD::Coupling(pol=0) { t=0.4177, \mu_R^2=0.4177 as(t)=0.942 } CF_QCD::Coupling(pol=0) { t=0.5761, \mu_R^2=0.5761 as(t)=0.6708 } CF_QCD::Coupling(pol=0) { t=0.5747, \mu_R^2=0.5747 as(t)=0.6721 } CF_QCD::Coupling(pol=0) { t=0.5825, \mu_R^2=0.5825 as(t)=0.6646 } CF_QCD::Coupling(pol=0) { t=0.5772, \mu_R^2=0.5772 as(t)=0.6697 } CF_QCD::Coupling(pol=0) { t=0.4855, \mu_R^2=0.4855 as(t)=0.7876 } CF_QCD::Coupling(pol=0) { t=0.6097, \mu_R^2=0.6097 as(t)=0.6408 } CF_QCD::Coupling(pol=0) { t=0.4862, \mu_R^2=0.4862 as(t)=0.7866 } CF_QCD::Coupling(pol=0) { t=0.378, \mu_R^2=0.378 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.7183, \mu_R^2=0.7183 as(t)=0.5701 } CF_QCD::Coupling(pol=0) { t=0.6104, \mu_R^2=0.6104 as(t)=0.6402 } CF_QCD::Coupling(pol=0) { t=0.4278, \mu_R^2=0.4278 as(t)=0.9128 } CF_QCD::Coupling(pol=0) { t=0.6913, \mu_R^2=0.6913 as(t)=0.5848 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4043, \mu_R^2=0.4043 as(t)=0.9853 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5251, \mu_R^2=0.5251 as(t)=0.7283 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.717, \mu_R^2=0.717 as(t)=0.5708 } CF_QCD::Coupling(pol=0) { t=0.4772, \mu_R^2=0.4772 as(t)=0.8023 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7256, \mu_R^2=0.7256 as(t)=0.5663 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3945, \mu_R^2=0.3945 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.387, \mu_R^2=0.387 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.6818, \mu_R^2=0.6818 as(t)=0.5904 } CF_QCD::Coupling(pol=0) { t=0.634, \mu_R^2=0.634 as(t)=0.6219 } CF_QCD::Coupling(pol=0) { t=0.5984, \mu_R^2=0.5984 as(t)=0.6503 } CF_QCD::Coupling(pol=0) { t=0.5976, \mu_R^2=0.5976 as(t)=0.651 } CF_QCD::Coupling(pol=0) { t=0.4563, \mu_R^2=0.4563 as(t)=0.8436 } CF_QCD::Coupling(pol=0) { t=0.444, \mu_R^2=0.444 as(t)=0.8715 } CF_QCD::Coupling(pol=0) { t=0.4382, \mu_R^2=0.4382 as(t)=0.8855 } CF_QCD::Coupling(pol=0) { t=0.3626, \mu_R^2=0.3626 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.7263, \mu_R^2=0.7263 as(t)=0.566 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6181, \mu_R^2=0.6181 as(t)=0.634 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.5111, \mu_R^2=0.5111 as(t)=0.7476 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.481, \mu_R^2=0.481 as(t)=0.7955 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.478, \mu_R^2=0.478 as(t)=0.8009 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4426, \mu_R^2=0.4426 as(t)=0.8749 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4246, \mu_R^2=0.4246 as(t)=0.9216 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4107, \mu_R^2=0.4107 as(t)=0.9638 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3833, \mu_R^2=0.3833 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4647, \mu_R^2=0.4647 as(t)=0.8263 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.417, \mu_R^2=0.417 as(t)=0.944 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4116, \mu_R^2=0.4116 as(t)=0.9608 } Emission G -> s sb at kt = 1.147( 0 .. 1.439 ), z = 0.727, y = 0.03369 for Parton 0x7ffbb5d01290 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (2.861,-1.628,-2.353,-0.02846) 8.435e-07 0 (602,615)[602,615] (Final state parton) Colour partners (0x7ffbb5cd5a40,0x7ffbb5cf85c0) k_T start : 1.439 k_T test : 1.147 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf85c0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: d : (64.91,-48.03,-37.67,22.07) 2.094e-05 0 (615,0)[615,0] (Final state parton) Colour partners (0x7ffbb5d01290,0x0) k_T start : 1.439 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 18 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.4488, \mu_R^2=0.4488 as(t)=0.8602 } CF_QCD::Coupling(pol=0) { t=0.446, \mu_R^2=0.446 as(t)=0.8667 } CF_QCD::Coupling(pol=0) { t=0.4171, \mu_R^2=0.4171 as(t)=0.9437 } CF_QCD::Coupling(pol=0) { t=0.4072, \mu_R^2=0.4072 as(t)=0.9754 } CF_QCD::Coupling(pol=0) { t=0.3974, \mu_R^2=0.3974 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3964, \mu_R^2=0.3964 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3753, \mu_R^2=0.3753 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3664, \mu_R^2=0.3664 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.4437, \mu_R^2=0.4437 as(t)=0.8721 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4426, \mu_R^2=0.4426 as(t)=0.8749 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4045, \mu_R^2=0.4045 as(t)=0.9845 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4554, \mu_R^2=0.4554 as(t)=0.8455 } CF_QCD::Coupling(pol=0) { t=0.4212, \mu_R^2=0.4212 as(t)=0.9316 } CF_QCD::Coupling(pol=0) { t=0.4426, \mu_R^2=0.4426 as(t)=0.8749 } CF_QCD::Coupling(pol=0) { t=0.3716, \mu_R^2=0.3716 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.4136, \mu_R^2=0.4136 as(t)=0.9546 } CF_QCD::Coupling(pol=0) { t=0.4642, \mu_R^2=0.4642 as(t)=0.8272 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4139, \mu_R^2=0.4139 as(t)=0.9538 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3739, \mu_R^2=0.3739 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4466, \mu_R^2=0.4466 as(t)=0.8653 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4174, \mu_R^2=0.4174 as(t)=0.9429 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3986, \mu_R^2=0.3986 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4018, \mu_R^2=0.4018 as(t)=0.9939 } Emission G -> G G at kt = 1.105( 0 .. 1.147 ), z = 0.9374, y = 0.06261 for Parton 0x7ffbb5b98890 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (63.15,-48.49,-1.226,40.44) 1.311e-05 0 (604,609)[604,609] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb5cf9c80) k_T start : 1.147 k_T test : 1.105 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf9c80 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (18.65,-18.12,2.87,3.382) 3.201e-06 0 (609,614)[609,614] (Final state parton) Colour partners (0x7ffbb5b98890,0x7ffbb5cf8430) k_T start : 1.147 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 19 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.4381, \mu_R^2=0.4381 as(t)=0.8858 } CF_QCD::Coupling(pol=0) { t=0.3884, \mu_R^2=0.3884 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3815, \mu_R^2=0.3815 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3898, \mu_R^2=0.3898 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3839, \mu_R^2=0.3839 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3635, \mu_R^2=0.3635 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.4034, \mu_R^2=0.4034 as(t)=0.9882 } CF_QCD::Coupling(pol=0) { t=0.4276, \mu_R^2=0.4276 as(t)=0.9134 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3761, \mu_R^2=0.3761 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.4105, \mu_R^2=0.4105 as(t)=0.9647 } CF_QCD::Coupling(pol=0) { t=0.3929, \mu_R^2=0.3929 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3844, \mu_R^2=0.3844 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.376, \mu_R^2=0.376 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.4146, \mu_R^2=0.4146 as(t)=0.9515 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.391, \mu_R^2=0.391 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3814, \mu_R^2=0.3814 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3729, \mu_R^2=0.3729 as(t)=1 } CF_QCD::Coupling(pol=1) { } Emission G -> G G at kt = 1.055( 0 .. 1.105 ), z = 0.1798, y = 0.4977 for Parton 0x7ffbb5cf9c80 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (17.48,-16.98,2.69,3.17) 2.975e-06 0 (609,614)[609,614] (Final state parton) Colour partners (0x7ffbb5d01290,0x7ffbb5cf8430) k_T start : 1.105 k_T test : 1.055 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf8430 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: d : (0.613,-0.06363,0.5917,0.1469) 2.161e-07 0 (614,0)[614,0] (Final state parton) Colour partners (0x7ffbb5cf9c80,0x0) k_T start : 1.105 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 20 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.3899, \mu_R^2=0.3899 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3795, \mu_R^2=0.3795 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3792, \mu_R^2=0.3792 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3897, \mu_R^2=0.3897 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3968, \mu_R^2=0.3968 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3953, \mu_R^2=0.3953 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3788, \mu_R^2=0.3788 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3728, \mu_R^2=0.3728 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3705, \mu_R^2=0.3705 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3741, \mu_R^2=0.3741 as(t)=1 } CF_QCD::Coupling(pol=1) { } Emission db -> db G at kt = 1.014( 0 .. 1.055 ), z = 0.4453, y = 0.004786 for Parton 0x7ffbb5cc3300 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: db : (14.23,-11.54,-7.632,3.319) 4.588e-06 0 (0,604)[0,604] (Final state parton) Colour partners (0x0,0x7ffbb5cfa6b0) k_T start : 1.055 k_T test : 1.014 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfa6b0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (59.58,-45.59,-0.07779,38.35) 1.224e-05 0 (604,616)[604,616] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb5d01290) k_T start : 1.055 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 21 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.3676, \mu_R^2=0.3676 as(t)=1 } CF_QCD::Coupling(pol=0) { t=0.3673, \mu_R^2=0.3673 as(t)=1 } Emission G -> G G at kt = 1.007( 0 .. 1.014 ), z = 0.8168, y = 0.3268 for Parton 0x7ffbb5cfa6b0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (59.29,-45.37,-0.07742,38.17) 1.221e-05 0 (604,616)[604,616] (Final state parton) Colour partners (0x7ffbb5cf9c80,0x7ffbb5d01290) k_T start : 1.014 k_T test : 1.007 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d01290 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (4.741,-4.031,-0.9689,2.299) 3.077e-07 0 (616,609)[616,609] (Final state parton) Colour partners (0x7ffbb5cfa6b0,0x7ffbb5cfa840) k_T start : 1.014 k_T test : 0 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 22 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.366, \mu_R^2=0.366 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3645, \mu_R^2=0.3645 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3643, \mu_R^2=0.3643 as(t)=1 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.3664, \mu_R^2=0.3664 as(t)=1 } CF_QCD::Coupling(pol=1) { } Emission G -> s sb at kt = 1.005( 0 .. 1.007 ), z = 0.3138, y = 0.001111 for Parton 0x7ffbb5c704f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (370.1,-3.29,-0.7449,370.1) 4.62e-06 0 (611,606)[611,606] (Final state parton) Colour partners (0x7ffbb5da8c40,0x7ffbb4a10d70) k_T start : 1.007 k_T test : 1.005 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (71.33,10.11,7.508,70.21) 1.085e-05 0 (606,610)[606,610] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb5d01100) k_T start : 1.007 k_T test : 1.078 k_T veto : 20(4918) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 23 vs. maxem = 18446744073709551615 No emission after shower step with 23 of 23 emission(s) Singlet parton list from CS_Shower : 0x7ffbb5ccb540, jf = 0x0 Parton 0x7ffbb5da8c40 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3082,-1.788e-14,-8.941e-15,3082) 1.999e-14 0 (607,611)[607,611] (Initial state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb5cfae80) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 0.7704 Parton 0x7ffbb5cfae80 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: s : (118.1,-1.144,0.2229,118.1) 1.545e-06 0 (611,0)[611,0] (Final state parton) Colour partners (0x7ffbb5da8c40,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfa6b0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: sb : (252.1,-2.135,-0.9595,252.1) 4.669e-06 0 (0,606)[0,606] (Final state parton) Colour partners (0x0,0x7ffbb4a10d70) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d909d0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: cb : (121.1,3.389,0.56,121) 1.42 1.42 (0,607)[0,607] (Final state parton) Colour partners (0x0,0x7ffbb5da8c40) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (71.26,10.1,7.499,70.14) 1.081e-05 0 (606,610)[606,610] (Final state parton) Colour partners (0x7ffbb5cfa6b0,0x7ffbb5d01100) k_T start : 0 k_T test : 1.078 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d01100 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (14.94,1.241,3.341,14.51) 1.816e-06 0 (610,613)[610,613] (Final state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb5cd5a40) k_T start : 0 k_T test : 1.037 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cd5a40 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (12.88,4.138,-2.816,11.87) 7.849e-06 0 (613,602)[613,602] (Final state parton) Colour partners (0x7ffbb5d01100,0x7ffbb5cfa520) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfacf0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (56.06,-43.34,-0.9046,35.55) 9.61e-06 0 (604,619)[604,619] (Final state parton) Colour partners (0x7ffbb5cf9c80,0x7ffbb5cc3300) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cc3300 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (4.785,-3.356,0.5105,3.373) 1.501e-06 0 (619,616)[619,616] (Final state parton) Colour partners (0x7ffbb5cfacf0,0x7ffbb5d01290) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d01290 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.191,-2.714,-0.6523,1.548) 2.233e-07 0 (616,609)[616,609] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb5cfa840) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfa9d0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.623,-3.42,1.157,-0.299) 6.073e-07 0 (617,614)[617,614] (Final state parton) Colour partners (0x7ffbb5cfa840,0x7ffbb5cf8430) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfa840 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (14.17,-13.59,1.828,3.542) 2.314e-06 0 (609,617)[609,617] (Final state parton) Colour partners (0x7ffbb5d01290,0x7ffbb5cfa9d0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf8430 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: d : (0.3079,-0.03196,0.2972,0.07379) 1.079e-07 0 (614,0)[614,0] (Final state parton) Colour partners (0x7ffbb5cfa9d0,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf9e10 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: db : (1.821,0.3514,-1.374,1.142) 3.061e-07 0 (0,500)[0,500] (Final state parton) Colour partners (0x0,0x7ffbb4a6c7f0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf85c0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: d : (62.73,-46.42,-36.4,21.33) 2.024e-05 0 (615,0)[615,0] (Final state parton) Colour partners (0x7ffbb5cc1bf0,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfa520 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: s : (3.902,-2.741,-2.774,0.1327) 1.583e-06 0 (602,0)[602,0] (Final state parton) Colour partners (0x7ffbb5cd5a40,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cc1bf0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: sb : (1.146,-0.5049,-0.8479,0.5825) 1.619e-06 0 (0,615)[0,615] (Final state parton) Colour partners (0x0,0x7ffbb5cf85c0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cfab60 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: db : (8.364,-6.967,-3.924,2.455) 1.961e-06 0 (0,618)[0,618] (Final state parton) Colour partners (0x0,0x7ffbb5cf9c80) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cf9c80 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (6.147,-4.789,-3.708,1.047) 2.49e-06 0 (618,604)[618,604] (Final state parton) Colour partners (0x7ffbb5cfab60,0x7ffbb5cfacf0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d6d310 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (3003,0,0,-3003) 5.227e-05 0 (612,605)[612,605] (Initial state parton) Colour partners (0x7ffbb5c8f250,0x7ffbb5cea450) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 0.7509 Parton 0x7ffbb5c8f250 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (195.2,-1.447,2.131,-195.2) 3.669e-06 0 (603,612)[603,612] (Final state parton) Colour partners (0x7ffbb5cb9580,0x7ffbb5d6d310) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cea450 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: c : (113,4.168,-3.052,-112.8) 1.42 1.42 (605,0)[605,0] (Final state parton) Colour partners (0x7ffbb5d6d310,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d8b430 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: u : (28.72,11.2,-0.2807,-26.44) 5.294e-06 0 (608,0)[608,0] (Final state parton) Colour partners (0x7ffbb4a6c7f0,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5cb9580 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: ub : (59.75,19.86,3.908,-56.22) 1.025e-05 0 (0,603)[0,603] (Final state parton) Colour partners (0x0,0x7ffbb5c8f250) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb4a6c7f0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (9.726,2.312,-7.984,-5.051) 4.46e-07 0 (500,608)[500,608] (Final state parton) Colour partners (0x7ffbb5cf9e10,0x7ffbb5d8b430) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d97730 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(2)]: mu- : (2396,-2199,-801.8,514.6) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 Parton 0x7ffbb5d87cc0 (0x7ffbb5ccb540), stat=0, kin=1, kscheme=0, col=0 [(3)]: mu+ : (2526,2275,846,-699) 0.105 0.105 (0,0)[0,0] (Final state parton) Colour partners (0x0,0x0) k_T start : 0 k_T test : 0 k_T veto : 20(4918) x_B : 1 mom sum (-1.874e-10,-2.728e-12,-1.705e-12,6.366e-12), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- -> Success (2 blobs) Blob List with 2 elements { Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [168]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( -> 2) [( 3.0816e+03,-1.7881e-14,-8.9407e-15, 3.0816e+03), p^2=-3.9968e-28, m= 0.0000e+00] (611,607) 0 [I] 1 G 24 ( -> 2) [( 3.0035e+03, 0.0000e+00, 0.0000e+00,-3.0035e+03), p^2= 2.7317e-09, m= 0.0000e+00] (605,612) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.1444e+00, 2.2288e-01, 1.1812e+02), p^2= 2.3883e-12, m= 0.0000e+00] (611, 0) [F] 1 sb 7 ( 2 -> ) [( 2.5209e+02,-2.1347e+00,-9.5948e-01, 2.5208e+02), p^2= 2.1801e-11, m= 0.0000e+00] ( 0,606) [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.3891e+00, 5.6005e-01, 1.2101e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,607) [F] 1 G 9 ( 2 -> ) [( 7.1256e+01, 1.0096e+01, 7.4994e+00, 7.0137e+01), p^2=-1.1676e-10, m= 0.0000e+00] (606,610) [F] 1 G 10 ( 2 -> ) [( 1.4940e+01, 1.2415e+00, 3.3411e+00, 1.4509e+01), p^2=-3.2969e-12, m= 0.0000e+00] (610,613) [F] 1 G 11 ( 2 -> ) [( 1.2882e+01, 4.1381e+00,-2.8164e+00, 1.1870e+01), p^2=-6.1606e-11, m= 0.0000e+00] (613,602) [F] 1 G 12 ( 2 -> ) [( 5.6058e+01,-4.3336e+01,-9.0459e-01, 3.5549e+01), p^2=-9.2361e-11, m= 0.0000e+00] (604,619) [F] 1 G 13 ( 2 -> ) [( 4.7855e+00,-3.3561e+00, 5.1054e-01, 3.3730e+00), p^2= 2.2540e-12, m= 0.0000e+00] (619,616) [F] 1 G 14 ( 2 -> ) [( 3.1914e+00,-2.7137e+00,-6.5225e-01, 1.5477e+00), p^2=-4.9849e-14, m= 0.0000e+00] (616,609) [F] 1 G 15 ( 2 -> ) [( 3.6229e+00,-3.4203e+00, 1.1566e+00,-2.9897e-01), p^2= 3.6882e-13, m= 0.0000e+00] (617,614) [F] 1 G 16 ( 2 -> ) [( 1.4167e+01,-1.3595e+01, 1.8278e+00, 3.5421e+00), p^2=-5.3535e-12, m= 0.0000e+00] (609,617) [F] 1 d 17 ( 2 -> ) [( 3.0787e-01,-3.1961e-02, 2.9718e-01, 7.3787e-02), p^2= 1.1643e-14, m= 0.0000e+00] (614, 0) [F] 1 db 18 ( 2 -> ) [( 1.8208e+00, 3.5140e-01,-1.3738e+00, 1.1422e+00), p^2= 9.3703e-14, m= 0.0000e+00] ( 0,500) [F] 1 d 19 ( 2 -> ) [( 6.2727e+01,-4.6415e+01,-3.6404e+01, 2.1331e+01), p^2=-4.0950e-10, m= 0.0000e+00] (615, 0) [F] 1 s 20 ( 2 -> ) [( 3.9021e+00,-2.7408e+00,-2.7742e+00, 1.3268e-01), p^2= 2.5047e-12, m= 0.0000e+00] (602, 0) [F] 1 sb 21 ( 2 -> ) [( 1.1459e+00,-5.0485e-01,-8.4793e-01, 5.8247e-01), p^2= 2.6197e-12, m= 0.0000e+00] ( 0,615) [F] 1 db 22 ( 2 -> ) [( 8.3643e+00,-6.9665e+00,-3.9243e+00, 2.4554e+00), p^2=-3.8458e-12, m= 0.0000e+00] ( 0,618) [F] 1 G 23 ( 2 -> ) [( 6.1470e+00,-4.7892e+00,-3.7084e+00, 1.0474e+00), p^2=-6.2013e-12, m= 0.0000e+00] (618,604) [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.4474e+00, 2.1311e+00,-1.9521e+02), p^2= 1.3460e-11, m= 0.0000e+00] (603,612) [F] 1 c 26 ( 2 -> ) [( 1.1296e+02, 4.1680e+00,-3.0518e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (605, 0) [F] 1 u 27 ( 2 -> ) [( 2.8718e+01, 1.1199e+01,-2.8069e-01,-2.6442e+01), p^2= 2.8027e-11, m= 0.0000e+00] (608, 0) [F] 1 ub 28 ( 2 -> ) [( 5.9751e+01, 1.9863e+01, 3.9080e+00,-5.6217e+01), p^2= 1.0503e-10, m= 0.0000e+00] ( 0,603) [F] 1 G 29 ( 2 -> ) [( 9.7264e+00, 2.3120e+00,-7.9843e+00,-5.0506e+00), p^2= 1.9895e-13, m= 0.0000e+00] (500,608) [F] 1 mu- 30 ( 2 -> ) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 31 ( 2 -> ) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) } trying phase: Signal_Processes -> Nothing (2 blobs) trying phase: Hard_Decays -> Nothing (2 blobs) trying phase: Jet_Evolution:CSS -> Nothing (2 blobs) trying phase: Lepton_FS_QED_Corrections:PhotonsSignal_Process_FS_QED_Correction::Treat(1) { Resonance_Finder::BuildResonantBlobs(2 particles to treat, clustering = 1) { 0 subprocess infos for process 2_2__c__cb__mu-__mu+ Particle content unambiguous? yes Resonance_Finder::FindResonances(find resonances in 2 particles) { no resonances found } built generic blob: Blob [0]( -1, Unspecified , 1 -> 2 @ (0,0,0,0), none Incoming particles : [R] 1 PH0 -1 ( -> -1) [( 4.9221e+03, 7.5838e+01, 4.4228e+01,-1.8439e+02), p^2= 2.4185e+07, m= 4.9178e+03] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( -1 -> ) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( -1 -> ) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Data_Container: * p_original ((4922,75.84,44.23,-184.4)) } Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( PH0 -> mu- mu+ ) { nbar: 2.512 k_i = [0.001 .. 5.758e+07] 0 : 1.521e+07 1 : 8.572 2 : 7.006e+06 k_i = [0.001 .. 5.758e+07] 0 : 2.087 1 : 1016 n: 2 u: 0.814 Weight_YFS::Weight_YFS(\Omega_min=0.001) { Y=-1.422, Ymax=-1.472, nbar=2.512 } Weight_Jacobian_Mapping::CalculateWeight() { 0.6626 * 1 * 1.509 = 1 } Weight_Higher_Order_Corrections::Weight_Higher_Order_Corrections(1) { ME -> none calc for 2 2 } -> reject k_i = [0.001 .. 5.758e+07] 0 : 62.2 1 : 4.098e+05 n: 2 u: 0.006 Weight_YFS::Weight_YFS(\Omega_min=0.001) { Y=-0.4802, Ymax=-1.472, nbar=2.512 } Weight_Jacobian_Mapping::CalculateWeight() { 3.599e-05 * 1 * 2.778e+04 = 1 } Weight_Higher_Order_Corrections::Weight_Higher_Order_Corrections(1) { ME -> none calc for 2 2 } -> reject k_i = [0.001 .. 5.758e+07] 0 : 2.798 1 : 6217 2 : 4.427e+04 k_i = [0.001 .. 5.758e+07] 0 : 1.568e+04 1 : 3.28e+06 2 : 3.477e+04 3 : 1.846e+05 k_i = [0.001 .. 5.758e+07] 0 : 109.1 1 : 454.3 2 : 1.999e+05 k_i = [0.001 .. 5.758e+07] 0 : 8.29 1 : 0.2628 2 : 4190 3 : 3.905e+06 k_i = [0.001 .. 5.758e+07] 0 : 15.1 n: 1 u: 0.9969 Weight_YFS::Weight_YFS(\Omega_min=0.001) { Y=-1.471, Ymax=-1.472, nbar=2.512 } Weight_Jacobian_Mapping::CalculateWeight() { 0.9939 * 1 * 1.006 = 1 } Weight_Higher_Order_Corrections::Weight_Higher_Order_Corrections(1) { ME -> none calc for 1 2 } -> accept } Blob [0]( -1, Unspecified , 1 -> 3 @ (0,0,0,0), none Incoming particles : [R] 1 PH0 -1 ( -> -1) [( 4.9221e+03, 7.5838e+01, 4.4228e+01,-1.8439e+02), p^2= 2.4185e+07, m= 4.9178e+03] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( -1 -> ) [( 2.3849e+03,-2.1859e+03,-8.0216e+02, 5.1602e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( -1 -> ) [( 2.5220e+03, 2.2742e+03, 8.4061e+02,-6.9411e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( -1 -> ) [( 1.5140e+01,-1.2499e+01, 5.7772e+00,-6.2951e+00), p^2=-1.0658e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * p_original ((4922,75.84,44.23,-184.4)) } -> Success (3 blobs) Blob List with 3 elements { Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [40]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( -> 2) [( 3.0816e+03,-1.7881e-14,-8.9407e-15, 3.0816e+03), p^2=-3.9968e-28, m= 0.0000e+00] (611,607) 0 [I] 1 G 24 ( -> 2) [( 3.0035e+03, 0.0000e+00, 0.0000e+00,-3.0035e+03), p^2= 2.7317e-09, m= 0.0000e+00] (605,612) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.1444e+00, 2.2288e-01, 1.1812e+02), p^2= 2.3883e-12, m= 0.0000e+00] (611, 0) [F] 1 sb 7 ( 2 -> ) [( 2.5209e+02,-2.1347e+00,-9.5948e-01, 2.5208e+02), p^2= 2.1801e-11, m= 0.0000e+00] ( 0,606) [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.3891e+00, 5.6005e-01, 1.2101e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,607) [F] 1 G 9 ( 2 -> ) [( 7.1256e+01, 1.0096e+01, 7.4994e+00, 7.0137e+01), p^2=-1.1676e-10, m= 0.0000e+00] (606,610) [F] 1 G 10 ( 2 -> ) [( 1.4940e+01, 1.2415e+00, 3.3411e+00, 1.4509e+01), p^2=-3.2969e-12, m= 0.0000e+00] (610,613) [F] 1 G 11 ( 2 -> ) [( 1.2882e+01, 4.1381e+00,-2.8164e+00, 1.1870e+01), p^2=-6.1606e-11, m= 0.0000e+00] (613,602) [F] 1 G 12 ( 2 -> ) [( 5.6058e+01,-4.3336e+01,-9.0459e-01, 3.5549e+01), p^2=-9.2361e-11, m= 0.0000e+00] (604,619) [F] 1 G 13 ( 2 -> ) [( 4.7855e+00,-3.3561e+00, 5.1054e-01, 3.3730e+00), p^2= 2.2540e-12, m= 0.0000e+00] (619,616) [F] 1 G 14 ( 2 -> ) [( 3.1914e+00,-2.7137e+00,-6.5225e-01, 1.5477e+00), p^2=-4.9849e-14, m= 0.0000e+00] (616,609) [F] 1 G 15 ( 2 -> ) [( 3.6229e+00,-3.4203e+00, 1.1566e+00,-2.9897e-01), p^2= 3.6882e-13, m= 0.0000e+00] (617,614) [F] 1 G 16 ( 2 -> ) [( 1.4167e+01,-1.3595e+01, 1.8278e+00, 3.5421e+00), p^2=-5.3535e-12, m= 0.0000e+00] (609,617) [F] 1 d 17 ( 2 -> ) [( 3.0787e-01,-3.1961e-02, 2.9718e-01, 7.3787e-02), p^2= 1.1643e-14, m= 0.0000e+00] (614, 0) [F] 1 db 18 ( 2 -> ) [( 1.8208e+00, 3.5140e-01,-1.3738e+00, 1.1422e+00), p^2= 9.3703e-14, m= 0.0000e+00] ( 0,500) [F] 1 d 19 ( 2 -> ) [( 6.2727e+01,-4.6415e+01,-3.6404e+01, 2.1331e+01), p^2=-4.0950e-10, m= 0.0000e+00] (615, 0) [F] 1 s 20 ( 2 -> ) [( 3.9021e+00,-2.7408e+00,-2.7742e+00, 1.3268e-01), p^2= 2.5047e-12, m= 0.0000e+00] (602, 0) [F] 1 sb 21 ( 2 -> ) [( 1.1459e+00,-5.0485e-01,-8.4793e-01, 5.8247e-01), p^2= 2.6197e-12, m= 0.0000e+00] ( 0,615) [F] 1 db 22 ( 2 -> ) [( 8.3643e+00,-6.9665e+00,-3.9243e+00, 2.4554e+00), p^2=-3.8458e-12, m= 0.0000e+00] ( 0,618) [F] 1 G 23 ( 2 -> ) [( 6.1470e+00,-4.7892e+00,-3.7084e+00, 1.0474e+00), p^2=-6.2013e-12, m= 0.0000e+00] (618,604) [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.4474e+00, 2.1311e+00,-1.9521e+02), p^2= 1.3460e-11, m= 0.0000e+00] (603,612) [F] 1 c 26 ( 2 -> ) [( 1.1296e+02, 4.1680e+00,-3.0518e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (605, 0) [F] 1 u 27 ( 2 -> ) [( 2.8718e+01, 1.1199e+01,-2.8069e-01,-2.6442e+01), p^2= 2.8027e-11, m= 0.0000e+00] (608, 0) [F] 1 ub 28 ( 2 -> ) [( 5.9751e+01, 1.9863e+01, 3.9080e+00,-5.6217e+01), p^2= 1.0503e-10, m= 0.0000e+00] ( 0,603) [F] 1 G 29 ( 2 -> ) [( 9.7264e+00, 2.3120e+00,-7.9843e+00,-5.0506e+00), p^2= 1.9895e-13, m= 0.0000e+00] (500,608) [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Blob [32]( 3, QED Radiation , 2 -> 3 @ (0,0,0,0), YFS-type_QED_Corrections_to_ME Incoming particles : [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( 3 -> ) [( 2.3849e+03,-2.1859e+03,-8.0216e+02, 5.1602e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( 3 -> ) [( 2.5220e+03, 2.2742e+03, 8.4061e+02,-6.9411e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( 3 -> ) [( 1.5140e+01,-1.2499e+01, 5.7772e+00,-6.2951e+00), p^2=-1.0658e-13, m= 0.0000e+00] ( 0, 0) } trying phase: Signal_Processes -> Nothing (3 blobs) trying phase: Hard_Decays -> Nothing (3 blobs) trying phase: Jet_Evolution:CSS -> Nothing (3 blobs) trying phase: Lepton_FS_QED_Corrections:PhotonsSignal_Process_FS_QED_Correction::Treat(1) { } -> Nothing (3 blobs) trying phase: Multiple_Interactions:AmisicSimple_Chain::GenerateOrderingParameter(): old p_T = 4918, new p_T = 12.31 Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.1354, ta=153.4) * PDF(flb=G, xb=0.001478, tb=153.4) -> 21.3 type=none, B=1.35, VI=0, KP=0, K=0 muR2=153.4, muF2=153.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1354, x2=0.001478, x1p=1, x2p=1 Cluster sequence: pdfwgt=21.3, flux=1.953e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 28.75467098067 , PS = 1.43186585830456e-05 -> 0.000411728316440023 p_lab[0]=Vec4D(541.410175583999,0,0,541.410175583999); p_lab[1]=Vec4D(5.91075291727798,0,0,-5.91075291727804); p_lab[2]=Vec4D(12.3290467302686,0.985421656657499,-12.272442264765,0.649228999465009); p_lab[3]=Vec4D(534.99188177101,-0.985421656657499,12.272442264765,534.850193667257); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.008304, ta=152.6) * PDF(flb=G, xb=0.042, tb=152.6) -> 243.1 type=none, B=2.393, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.042, x2=0.008304, x1p=1, x2p=1 Cluster sequence: pdfwgt=243.1, flux=1.12e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 581.903717480468 , PS = 1.32440347086633e-05 -> 0.00770675303141154 p_lab[0]=Vec4D(33.2171370975992,0,0,-33.2171370975992); p_lab[1]=Vec4D(168.005044019134,0,0,168.005044019134); p_lab[2]=Vec4D(34.1387299638213,-9.21325335166122,-8.16699808139465,-31.8413094667808); p_lab[3]=Vec4D(167.083451152912,9.21325335166122,8.16699808139465,166.629216388316); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1927, ta=151.6) * PDF(flb=G, xb=0.2179, tb=151.6) -> 1.166e-08 type=none, B=294.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1927, x2=0.2179, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.166e-08, flux=9.301e-08, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.43306983842257e-06 , PS = 5.20223375908727e-06 -> 1.78596318107462e-11 p_lab[0]=Vec4D(770.886855681015,0,0,770.886855681015); p_lab[1]=Vec4D(871.728534802923,0,0,-871.728534802923); p_lab[2]=Vec4D(770.892542713769,9.06643125770937,8.329689023765,770.794219306759); p_lab[3]=Vec4D(871.722847770169,-9.06643125770937,-8.329689023765,-871.635898428667); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.9516, ta=151.6) * PDF(flb=G, xb=0.05288, tb=151.6) -> 0 type=none, B=352.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05288, x2=0.9516, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.763e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1542, ta=151.6) * PDF(flb=G, xb=0.1652, tb=151.6) -> 1.327e-05 type=none, B=178.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1542, x2=0.1652, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.327e-05, flux=1.533e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00237097814788661 , PS = 6.02291744679346e-06 -> 1.42802056528723e-08 p_lab[0]=Vec4D(616.797322921627,0,0,616.797322921627); p_lab[1]=Vec4D(660.930401486521,0,0,-660.930401486522); p_lab[2]=Vec4D(616.801425902218,-12.2157873708562,1.53571934070992,616.678534651585); p_lab[3]=Vec4D(660.92629850593,12.2157873708562,-1.53571934070992,-660.81161321648); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.63, \mu_f = 12.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.63 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.63 \mu_R = 12.63 } PDF(fla=G, xa=0.002124, ta=159.6) * PDF(flb=G, xb=0.02225, tb=159.6) -> 1.117e+04 type=none, B=0.2809, VI=0, KP=0, K=0 muR2=159.6, muF2=159.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002124, x2=0.02225, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.117e+04, flux=8.266e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3138.11688838726 , PS = 1.59759218748593e-05 -> 0.0501343102430513 p_lab[0]=Vec4D(8.4958412392894,0,0,8.4958412392894); p_lab[1]=Vec4D(88.9931239368205,0,0,-88.9931239368204); p_lab[2]=Vec4D(84.7329611948105,6.89459838392791,-10.2004121538171,-83.8337093170632); p_lab[3]=Vec4D(12.7560039812993,-6.89459838392791,10.2004121538171,3.33642661953227); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02516, ta=151.8) * PDF(flb=G, xb=0.07831, tb=151.8) -> 3.547 type=none, B=13.76, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07831, x2=0.02516, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.547, flux=1.983e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 48.8237831555594 , PS = 1.02468446464594e-05 -> 0.000500289721047437 p_lab[0]=Vec4D(100.622794014092,0,0,-100.622794014092); p_lab[1]=Vec4D(313.231455656297,0,0,313.231455656297); p_lab[2]=Vec4D(100.878732385543,-8.98326666200894,-8.41931203024566,-100.124596142659); p_lab[3]=Vec4D(312.975517284847,8.98326666200894,8.41931203024566,312.733257784864); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.6858, ta=152) * PDF(flb=G, xb=0.001278, tb=152) -> 0 type=none, B=6.096, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6858, x2=0.001278, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.455e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.001025, ta=152) * PDF(flb=G, xb=0.8877, tb=152) -> 0 type=none, B=6.326, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001025, x2=0.8877, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.295e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.05324, ta=152.9) * PDF(flb=G, xb=0.005167, tb=152.9) -> 295.9 type=none, B=1.877, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005167, x2=0.05324, x1p=1, x2p=1 Cluster sequence: pdfwgt=295.9, flux=1.42e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 555.281528689361 , PS = 1.36901176209094e-05 -> 0.00760186944047575 p_lab[0]=Vec4D(212.956194348911,0,0,-212.956194348911); p_lab[1]=Vec4D(20.6695001929611,0,0,20.6695001929611); p_lab[2]=Vec4D(22.3394764521635,12.2221569568931,-1.4841746206126,18.6405019560463); p_lab[3]=Vec4D(211.286218089709,-12.2221569568931,1.4841746206126,-210.927196111996); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0253, ta=151.7) * PDF(flb=G, xb=0.2021, tb=151.7) -> -0.0009011 type=none, B=35.82, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0253, x2=0.2021, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0009011, flux=7.638e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0322770992315135 , PS = 8.66468851412963e-06 -> -2.79671010980717e-07 p_lab[0]=Vec4D(101.21560464578,0,0,101.21560464578); p_lab[1]=Vec4D(808.47679186909,0,0,-808.47679186909); p_lab[2]=Vec4D(101.543291582305,12.3043557965242,0.432115049428863,100.79412765824); p_lab[3]=Vec4D(808.149104932565,-12.3043557965242,-0.432115049428863,-808.055314881551); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1887, ta=151.6) * PDF(flb=G, xb=0.03064, tb=151.6) -> 0.001543 type=none, B=40.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03064, x2=0.1887, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.001543, flux=6.757e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0625020467030982 , PS = 8.46249223237299e-06 -> 5.28923084732382e-07 p_lab[0]=Vec4D(754.816389170958,0,0,-754.816389170958); p_lab[1]=Vec4D(122.546525853102,0,0,122.546525853102); p_lab[2]=Vec4D(122.805663947883,9.07316532486951,-8.32235339137831,122.186935482878); p_lab[3]=Vec4D(754.557251076177,-9.07316532486951,8.32235339137831,-754.456798800735); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.54, \mu_f = 12.54. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.54 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.54 \mu_R = 12.54 } PDF(fla=G, xa=0.003954, ta=157.2) * PDF(flb=G, xb=0.01664, tb=157.2) -> 7938 type=none, B=0.4102, VI=0, KP=0, K=0 muR2=157.2, muF2=157.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003954, x2=0.01664, x1p=1, x2p=1 Cluster sequence: pdfwgt=7938, flux=5.935e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3256.54221630343 , PS = 1.54393093835639e-05 -> 0.0502787627981457 p_lab[0]=Vec4D(15.8174253255439,0,0,15.817425325544); p_lab[1]=Vec4D(66.5755220742068,0,0,-66.5755220742068); p_lab[2]=Vec4D(17.7149835305113,8.25241345361621,-9.13682478621401,12.7372189469634); p_lab[3]=Vec4D(64.6779638692395,-8.25241345361621,9.13682478621401,-63.4953156956263); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.3633, ta=156.3) * PDF(flb=G, xb=0.0002141, tb=156.3) -> 0 type=none, B=0.4939, VI=0, KP=0, K=0 muR2=156.3, muF2=156.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002141, x2=0.3633, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.022e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01265, ta=151.7) * PDF(flb=G, xb=0.2641, tb=151.7) -> 0 type=none, B=23.39, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2641, x2=0.01265, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.169e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.2106, ta=151.8) * PDF(flb=G, xb=0.008104, tb=151.8) -> -0.01089 type=none, B=11.92, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008104, x2=0.2106, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.01089, flux=2.288e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.129753283903188 , PS = 1.0486341210192e-05 -> -1.36063720815175e-06 p_lab[0]=Vec4D(842.521684123231,0,0,-842.521684123231); p_lab[1]=Vec4D(32.4171561929795,0,0,32.4171561929795); p_lab[2]=Vec4D(33.5427507309278,-8.13982347271603,-9.23727063674231,31.2014780357237); p_lab[3]=Vec4D(841.396089585284,8.13982347271603,9.23727063674231,-841.306005965976); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.06, \mu_f = 13.06. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.06 -> 'Alpha_QCD'{fac=1.421,cpl=0.118} \mu_F = 13.06 \mu_R = 13.06 } PDF(fla=G, xa=0.08465, ta=170.5) * PDF(flb=G, xb=0.000252, tb=170.5) -> 3951 type=none, B=0.1024, VI=0, KP=0, K=0 muR2=170.5, muF2=170.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08465, x2=0.000252, x1p=1, x2p=1 Cluster sequence: pdfwgt=3951, flux=0.0001831, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 404.716434981269 , PS = 1.91589465413759e-05 -> 0.00775394054222237 p_lab[0]=Vec4D(338.605526250623,0,0,338.605526250623); p_lab[1]=Vec4D(1.00808893378632,0,0,-1.00808893378632); p_lab[2]=Vec4D(43.9502899905668,-11.3301968202077,4.8177313124287,42.1905687953068); p_lab[3]=Vec4D(295.663325193842,11.3301968202077,-4.8177313124287,295.40686852153); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.00294, ta=152) * PDF(flb=G, xb=0.2718, tb=152) -> 0 type=none, B=5.553, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2718, x2=0.00294, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.887e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05661, ta=151.6) * PDF(flb=G, xb=0.8623, tb=151.6) -> 0 type=none, B=342.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05661, x2=0.8623, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.002e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.81, \mu_f = 13.81. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.81 -> 'Alpha_QCD'{fac=1.404,cpl=0.118} \mu_F = 13.81 \mu_R = 13.81 } PDF(fla=G, xa=0.1336, ta=190.6) * PDF(flb=G, xb=8.659e-05, tb=190.6) -> 1999 type=none, B=0.0388, VI=0, KP=0, K=0 muR2=190.6, muF2=190.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=8.659e-05, x2=0.1336, x1p=1, x2p=1 Cluster sequence: pdfwgt=1999, flux=0.0003377, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 77.5642831155769 , PS = 3.3588302645277e-05 -> 0.00260525261574995 p_lab[0]=Vec4D(534.267660404353,0,0,-534.267660404353); p_lab[1]=Vec4D(0.346373273982211,0,0,0.346373273982239); p_lab[2]=Vec4D(153.77002752712,-3.96034346463839,11.6575972921309,-153.276343480356); p_lab[3]=Vec4D(380.844006151222,3.96034346463839,-11.6575972921309,-380.644943650022); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.6412, ta=152.6) * PDF(flb=G, xb=0.0005547, tb=152.6) -> 0 type=none, B=2.442, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005547, x2=0.6412, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.098e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3808, ta=151.7) * PDF(flb=G, xb=0.01395, tb=151.7) -> 0 type=none, B=37.2, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01395, x2=0.3808, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.354e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.53, \mu_f = 12.53. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.53 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.53 \mu_R = 12.53 } PDF(fla=G, xa=0.03011, ta=157) * PDF(flb=G, xb=0.002271, tb=157) -> 4997 type=none, B=0.4281, VI=0, KP=0, K=0 muR2=157, muF2=157, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002271, x2=0.03011, x1p=1, x2p=1 Cluster sequence: pdfwgt=4997, flux=5.713e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2139.16210130991 , PS = 1.53909114996442e-05 -> 0.0329236545846537 p_lab[0]=Vec4D(120.421208835409,0,0,-120.421208835409); p_lab[1]=Vec4D(9.08508050697262,0,0,9.08508050697262); p_lab[2]=Vec4D(116.420944585059,-5.36558102043623,11.0812650584911,-115.768097691437); p_lab[3]=Vec4D(13.0853447573221,5.36558102043623,-11.0812650584911,4.43196936300064); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.99, \mu_f = 13.99. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.99 -> 'Alpha_QCD'{fac=1.4,cpl=0.118} \mu_F = 13.99 \mu_R = 13.99 } PDF(fla=G, xa=0.02115, ta=195.6) * PDF(flb=G, xb=0.0004975, tb=195.6) -> 9.587e+04 type=none, B=0.03247, VI=0, KP=0, K=0 muR2=195.6, muF2=195.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02115, x2=0.0004975, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.587e+04, flux=0.0003713, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3112.85716220537 , PS = 4.53010594593303e-05 -> 0.141015727393467 p_lab[0]=Vec4D(84.5835360589153,0,0,84.5835360589153); p_lab[1]=Vec4D(1.98999599942549,0,0,-1.98999599942547); p_lab[2]=Vec4D(56.3090126842679,-10.1127963107776,7.02248145317042,54.9465286846552); p_lab[3]=Vec4D(30.264519374073,10.1127963107776,-7.02248145317042,27.6470113748347); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.8537, ta=151.6) * PDF(flb=G, xb=0.02236, tb=151.6) -> 0 type=none, B=133.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02236, x2=0.8537, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.046e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.8847, ta=152.9) * PDF(flb=G, xb=0.0003223, tb=152.9) -> 0 type=none, B=1.947, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003223, x2=0.8847, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.37e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1245, ta=151.6) * PDF(flb=G, xb=0.06355, tb=151.6) -> 0.02631 type=none, B=55.44, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1245, x2=0.06355, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.02631, flux=4.938e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.4586183474982 , PS = 7.9456351421086e-06 -> 1.15896492008061e-05 p_lab[0]=Vec4D(497.940909569532,0,0,497.940909569532); p_lab[1]=Vec4D(254.206986894396,0,0,-254.206986894397); p_lab[2]=Vec4D(254.279978654577,-10.1094579440999,-7.02728646490779,-253.981738811256); p_lab[3]=Vec4D(497.867917809352,10.1094579440999,7.02728646490779,497.715661486391); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.76, \mu_f = 12.76. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.76 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.76 \mu_R = 12.76 } PDF(fla=G, xa=0.4115, ta=162.9) * PDF(flb=G, xb=8.31e-05, tb=162.9) -> 0 type=none, B=0.1904, VI=0, KP=0, K=0 muR2=162.9, muF2=162.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4115, x2=8.31e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.0001142, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1779, ta=151.6) * PDF(flb=G, xb=0.06821, tb=151.6) -> 0.0006385 type=none, B=85.08, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06821, x2=0.1779, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0006385, flux=3.218e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0543248165189081 , PS = 7.24142447503935e-06 -> 3.93389055942043e-07 p_lab[0]=Vec4D(711.799637949345,0,0,-711.799637949345); p_lab[1]=Vec4D(272.824497479431,0,0,272.824497479431); p_lab[2]=Vec4D(711.713958504321,9.08185681887822,-8.31286783876634,-711.607458389038); p_lab[3]=Vec4D(272.910176924456,-9.08185681887822,8.31286783876634,272.632317919124); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.3428, ta=151.8) * PDF(flb=G, xb=0.004845, tb=151.8) -> 0 type=none, B=11.6, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3428, x2=0.004845, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.352e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04604, ta=151.6) * PDF(flb=G, xb=0.1734, tb=151.6) -> 0.0007187 type=none, B=55.94, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1734, x2=0.04604, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0007187, flux=4.893e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0402054418922528 , PS = 7.93073496660284e-06 -> 3.18858703862608e-07 p_lab[0]=Vec4D(184.173342912929,0,0,-184.173342912928); p_lab[1]=Vec4D(693.535249527628,0,0,693.535249527628); p_lab[2]=Vec4D(693.384083872823,9.1329051757447,8.25675105802859,693.274767947868); p_lab[3]=Vec4D(184.324508567734,-9.1329051757447,-8.25675105802859,-183.912861333168); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.8, \mu_f = 12.8. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.8 -> 'Alpha_QCD'{fac=1.427,cpl=0.118} \mu_F = 12.8 \mu_R = 12.8 } PDF(fla=G, xa=0.0006512, ta=163.9) * PDF(flb=G, xb=0.0485, tb=163.9) -> 8572 type=none, B=0.1724, VI=0, KP=0, K=0 muR2=163.9, muF2=163.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0006512, x2=0.0485, x1p=1, x2p=1 Cluster sequence: pdfwgt=8572, flux=0.0001237, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1477.49925666147 , PS = 1.70732487682208e-05 -> 0.0252257123638426 p_lab[0]=Vec4D(2.60471828038459,0,0,2.60471828038458); p_lab[1]=Vec4D(194.013403307575,0,0,-194.013403307575); p_lab[2]=Vec4D(178.383455886093,8.37177760021492,9.02758189084654,-177.958066518161); p_lab[3]=Vec4D(18.2346657018676,-8.37177760021492,-9.02758189084654,-13.4506185090302); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.0003448, ta=154) * PDF(flb=G, xb=0.4429, tb=154) -> 0 type=none, B=1.019, VI=0, KP=0, K=0 muR2=154, muF2=154, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003448, x2=0.4429, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.557e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04352, ta=151.6) * PDF(flb=G, xb=0.6058, tb=151.6) -> 0 type=none, B=184.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6058, x2=0.04352, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.482e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04519, ta=151.6) * PDF(flb=G, xb=0.4554, tb=151.6) -> 0 type=none, B=144.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04519, x2=0.4554, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.898e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.001451, ta=153.2) * PDF(flb=G, xb=0.1553, tb=153.2) -> 11.07 type=none, B=1.528, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001451, x2=0.1553, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.07, flux=1.733e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 16.9091321704916 , PS = 1.40784420342674e-05 -> 0.000238054237112032 p_lab[0]=Vec4D(5.80489816127705,0,0,5.80489816127709); p_lab[1]=Vec4D(621.243382432272,0,0,-621.243382432272); p_lab[2]=Vec4D(614.706679548053,11.9528989702235,-2.95162687191825,-614.583369434944); p_lab[3]=Vec4D(12.341601045498,-11.9528989702235,2.95162687191825,-0.855114836052508); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.4172, ta=155.2) * PDF(flb=G, xb=0.0002412, tb=155.2) -> 0 type=none, B=0.6539, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002412, x2=0.4172, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.881e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01682, ta=151.6) * PDF(flb=G, xb=0.5092, tb=151.6) -> 0 type=none, B=60.04, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5092, x2=0.01682, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.559e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1244, ta=151.7) * PDF(flb=G, xb=0.02323, tb=151.7) -> 0.4007 type=none, B=20.21, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1244, x2=0.02323, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.4007, flux=1.352e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.09720383501197 , PS = 9.60980041926345e-06 -> 7.78125128085596e-05 p_lab[0]=Vec4D(497.414292293475,0,0,497.414292293475); p_lab[1]=Vec4D(92.9176407866454,0,0,-92.9176407866454); p_lab[2]=Vec4D(497.082361077265,10.2201848440138,-6.86525430975359,496.929864064503); p_lab[3]=Vec4D(93.2495720028545,-10.2201848440138,6.86525430975359,-92.433212557674); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.002784, ta=151.9) * PDF(flb=G, xb=0.4355, tb=151.9) -> 0 type=none, B=8.451, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4355, x2=0.002784, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.222e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.6762, ta=151.6) * PDF(flb=G, xb=0.04267, tb=151.6) -> 0 type=none, B=202.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04267, x2=0.6762, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.354e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7605, ta=151.6) * PDF(flb=G, xb=0.0303, tb=151.6) -> 0 type=none, B=161.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0303, x2=0.7605, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.695e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.6173, ta=152.7) * PDF(flb=G, xb=0.0005227, tb=152.7) -> 0 type=none, B=2.21, VI=0, KP=0, K=0 muR2=152.7, muF2=152.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6173, x2=0.0005227, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.211e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.1449, ta=156.8) * PDF(flb=G, xb=0.0004936, tb=156.8) -> 101.3 type=none, B=0.4501, VI=0, KP=0, K=0 muR2=156.8, muF2=156.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004936, x2=0.1449, x1p=1, x2p=1 Cluster sequence: pdfwgt=101.3, flux=5.462e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 45.6068711010365 , PS = 1.53368611400069e-05 -> 0.000699466249106792 p_lab[0]=Vec4D(579.540276513632,0,0,-579.540276513632); p_lab[1]=Vec4D(1.97444370398057,0,0,1.97444370398051); p_lab[2]=Vec4D(559.733157312029,-11.4581857570425,4.50487226683597,-559.597733644007); p_lab[3]=Vec4D(21.7815629055744,11.4581857570425,-4.50487226683597,-17.968099165635); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0004437, ta=152.4) * PDF(flb=G, xb=0.9552, tb=152.4) -> 0 type=none, B=2.92, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9552, x2=0.0004437, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.217e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.607, ta=151.6) * PDF(flb=G, xb=0.08487, tb=151.6) -> 0 type=none, B=361.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.607, x2=0.08487, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.582e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06234, ta=151.6) * PDF(flb=G, xb=0.5969, tb=151.6) -> 0 type=none, B=261, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5969, x2=0.06234, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.05e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02954, ta=151.8) * PDF(flb=G, xb=0.05462, tb=151.8) -> 9.057 type=none, B=11.27, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02954, x2=0.05462, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.057, flux=2.421e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 102.026643480639 , PS = 1.05806033445359e-05 -> 0.00107950344524302 p_lab[0]=Vec4D(118.178067195398,0,0,118.178067195398); p_lab[1]=Vec4D(218.469351847559,0,0,-218.469351847559); p_lab[2]=Vec4D(218.321928005306,1.37551062119328,-12.2348627092577,-217.974494730395); p_lab[3]=Vec4D(118.325491037651,-1.37551062119328,12.2348627092577,117.683210078234); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.5386, ta=151.9) * PDF(flb=G, xb=0.002028, tb=151.9) -> 0 type=none, B=7.608, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002028, x2=0.5386, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.576e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.12, \mu_f = 13.12. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.12 -> 'Alpha_QCD'{fac=1.419,cpl=0.118} \mu_F = 13.12 \mu_R = 13.12 } PDF(fla=G, xa=9.03e-05, ta=172.2) * PDF(flb=G, xb=0.2193, tb=172.2) -> -0.6171 type=none, B=0.09217, VI=0, KP=0, K=0 muR2=172.2, muF2=172.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2193, x2=9.03e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.6171, flux=0.0001973, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0568735585154957 , PS = 1.97792978185891e-05 -> -1.12491905188094e-06 p_lab[0]=Vec4D(0.361188908785009,0,0,-0.361188908785198); p_lab[1]=Vec4D(877.251823214199,0,0,877.251823214199); p_lab[2]=Vec4D(755.458886404506,-11.3851469659153,-4.68639771550716,755.358554034144); p_lab[3]=Vec4D(122.154125718499,11.3851469659153,4.68639771550716,121.532080271291); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1184, ta=151.6) * PDF(flb=G, xb=0.1889, tb=151.6) -> 1.081e-05 type=none, B=156.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1184, x2=0.1889, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.081e-05, flux=1.746e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00169540683864374 , PS = 6.23657462097929e-06 -> 1.05735312621203e-08 p_lab[0]=Vec4D(473.668089949291,0,0,473.668089949291); p_lab[1]=Vec4D(755.661748407111,0,0,-755.661748407111); p_lab[2]=Vec4D(755.631889298823,2.77170699297211,11.9958966037771,-755.531579902737); p_lab[3]=Vec4D(473.697949057579,-2.77170699297211,-11.9958966037771,473.537921444918); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.8296, ta=151.8) * PDF(flb=G, xb=0.002041, tb=151.8) -> 0 type=none, B=11.83, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002041, x2=0.8296, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.306e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.63, \mu_f = 13.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.63 -> 'Alpha_QCD'{fac=1.407,cpl=0.118} \mu_F = 13.63 \mu_R = 13.63 } PDF(fla=G, xa=0.1094, ta=185.8) * PDF(flb=G, xb=0.0001175, tb=185.8) -> 4445 type=none, B=0.04679, VI=0, KP=0, K=0 muR2=185.8, muF2=185.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001175, x2=0.1094, x1p=1, x2p=1 Cluster sequence: pdfwgt=4445, flux=0.0003039, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 208.008122045022 , PS = 2.78629295807342e-05 -> 0.00579571565676122 p_lab[0]=Vec4D(437.548192559358,0,0,-437.548192559358); p_lab[1]=Vec4D(0.469969268578576,0,0,0.469969268578627); p_lab[2]=Vec4D(106.967149461348,10.3728050833341,-6.63240602546012,-106.256233553157); p_lab[3]=Vec4D(331.051012366587,-10.3728050833341,6.63240602546012,-330.821989737621); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.003132, ta=152.8) * PDF(flb=G, xb=0.09651, tb=152.8) -> 61.32 type=none, B=2.067, VI=0, KP=0, K=0 muR2=152.8, muF2=152.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09651, x2=0.003132, x1p=1, x2p=1 Cluster sequence: pdfwgt=61.32, flux=1.292e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 126.748044299299 , PS = 1.35113077511879e-05 -> 0.00171253183338902 p_lab[0]=Vec4D(12.5276259743404,0,0,-12.5276259743404); p_lab[1]=Vec4D(386.038884827124,0,0,386.038884827124); p_lab[2]=Vec4D(383.088757429021,9.80581642845619,-7.44512317929121,382.890861961379); p_lab[3]=Vec4D(15.4777533724432,-9.80581642845619,7.44512317929121,-9.37960310859568); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.83, \mu_f = 12.83. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.83 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.83 \mu_R = 12.83 } PDF(fla=G, xa=0.0004298, ta=164.5) * PDF(flb=G, xb=0.07011, tb=164.5) -> 4738 type=none, B=0.1624, VI=0, KP=0, K=0 muR2=164.5, muF2=164.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004298, x2=0.07011, x1p=1, x2p=1 Cluster sequence: pdfwgt=4738, flux=0.0001296, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 769.477636357433 , PS = 1.72518301699753e-05 -> 0.0132748975020324 p_lab[0]=Vec4D(1.71930388468075,0,0,1.71930388468078); p_lab[1]=Vec4D(280.447182576529,0,0,-280.447182576529); p_lab[2]=Vec4D(256.479954131738,12.2204268673891,1.49835315002653,-256.184275427737); p_lab[3]=Vec4D(25.6865323294734,-12.2204268673891,-1.49835315002653,-22.543603264112); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.18, \mu_f = 13.18. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.18 -> 'Alpha_QCD'{fac=1.418,cpl=0.118} \mu_F = 13.18 \mu_R = 13.18 } PDF(fla=G, xa=0.0004301, ta=173.8) * PDF(flb=G, xb=0.04312, tb=173.8) -> 1.904e+04 type=none, B=0.08379, VI=0, KP=0, K=0 muR2=173.8, muF2=173.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04312, x2=0.0004301, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.904e+04, flux=0.0002106, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1595.2926130567 , PS = 2.04237524332136e-05 -> 0.0325818613876045 p_lab[0]=Vec4D(1.72034668409869,0,0,-1.72034668409873); p_lab[1]=Vec4D(172.498413626062,0,0,172.498413626062); p_lab[2]=Vec4D(146.832811417374,5.35184965680073,11.087903329052,146.315722373731); p_lab[3]=Vec4D(27.3859488927866,-5.35184965680073,-11.087903329052,24.4623445682322); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.003559, ta=154.5) * PDF(flb=G, xb=0.03512, tb=154.5) -> 1708 type=none, B=0.8244, VI=0, KP=0, K=0 muR2=154.5, muF2=154.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003559, x2=0.03512, x1p=1, x2p=1 Cluster sequence: pdfwgt=1708, flux=3.125e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1407.96833566277 , PS = 1.48591494683309e-05 -> 0.0209212119462902 p_lab[0]=Vec4D(14.2353362057619,0,0,14.2353362057619); p_lab[1]=Vec4D(140.490446496254,0,0,-140.490446496254); p_lab[2]=Vec4D(138.050945031722,9.5127259394792,7.81613332689254,-137.500834648988); p_lab[3]=Vec4D(16.6748376702939,-9.5127259394792,-7.81613332689254,11.2457243584951); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1882, ta=151.6) * PDF(flb=G, xb=0.1484, tb=151.6) -> -1.511e-06 type=none, B=195.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1882, x2=0.1484, x1p=1, x2p=1 Cluster sequence: pdfwgt=-1.511e-06, flux=1.399e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000295753630167464 , PS = 5.87269639960041e-06 -> -1.73687127905322e-09 p_lab[0]=Vec4D(752.607391140524,0,0,752.607391140524); p_lab[1]=Vec4D(593.549425348436,0,0,-593.549425348436); p_lab[2]=Vec4D(752.593896541819,4.9373984605664,-11.2785633582029,752.493182173111); p_lab[3]=Vec4D(593.56291994714,-4.9373984605664,11.2785633582029,-593.435216381023); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0009865, ta=152.5) * PDF(flb=G, xb=0.3894, tb=152.5) -> 0 type=none, B=2.641, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3894, x2=0.0009865, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.017e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06047, ta=151.6) * PDF(flb=G, xb=0.3822, tb=151.6) -> 0 type=none, B=162, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06047, x2=0.3822, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.69e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.78, \mu_f = 12.78. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.78 -> 'Alpha_QCD'{fac=1.427,cpl=0.118} \mu_F = 12.78 \mu_R = 12.78 } PDF(fla=G, xa=0.003898, ta=163.4) * PDF(flb=G, xb=0.00841, tb=163.4) -> 2.885e+04 type=none, B=0.1806, VI=0, KP=0, K=0 muR2=163.4, muF2=163.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003898, x2=0.00841, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.885e+04, flux=0.0001191, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5210.79984702657 , PS = 1.69408409944208e-05 -> 0.0882753316622291 p_lab[0]=Vec4D(15.5939926204657,0,0,15.5939926204657); p_lab[1]=Vec4D(33.638711234478,0,0,-33.638711234478); p_lab[2]=Vec4D(17.0084773700319,-8.96474864280999,8.43902700283848,11.7347521262055); p_lab[3]=Vec4D(32.2242264849118,8.96474864280999,-8.43902700283848,-29.7794707402178); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.001923, ta=153) * PDF(flb=G, xb=0.1359, tb=153) -> 13.96 type=none, B=1.78, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1359, x2=0.001923, x1p=1, x2p=1 Cluster sequence: pdfwgt=13.96, flux=1.495e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 24.8418219821517 , PS = 1.37891380708752e-05 -> 0.000342547313243993 p_lab[0]=Vec4D(7.69143221431762,0,0,-7.69143221431777); p_lab[1]=Vec4D(543.553365140828,0,0,543.553365140828); p_lab[2]=Vec4D(12.5935965085043,-10.1861315887098,6.9156791597708,-2.64854262484366); p_lab[3]=Vec4D(538.65120084664,10.1861315887098,-6.9156791597708,538.510475551353); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.03301, ta=152.4) * PDF(flb=G, xb=0.01414, tb=152.4) -> 187.3 type=none, B=3.22, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01414, x2=0.03301, x1p=1, x2p=1 Cluster sequence: pdfwgt=187.3, flux=8.371e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 603.110444425476 , PS = 1.27150061414667e-05 -> 0.00766855300485267 p_lab[0]=Vec4D(132.02096267341,0,0,-132.02096267341); p_lab[1]=Vec4D(56.5542044427695,0,0,56.5542044427695); p_lab[2]=Vec4D(131.635961333327,7.58669622682591,9.69669713589458,-131.05892728527); p_lab[3]=Vec4D(56.9392057828521,-7.58669622682591,-9.69669713589458,55.5921690546301); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.82, \mu_f = 12.82. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.82 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.82 \mu_R = 12.82 } PDF(fla=G, xa=0.00207, ta=164.5) * PDF(flb=G, xb=0.01462, tb=164.5) -> 2.773e+04 type=none, B=0.1632, VI=0, KP=0, K=0 muR2=164.5, muF2=164.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00207, x2=0.01462, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.773e+04, flux=0.0001291, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4525.30552708015 , PS = 1.72370745821483e-05 -> 0.0780030288772883 p_lab[0]=Vec4D(8.27861913023826,0,0,8.27861913023825); p_lab[1]=Vec4D(58.4616617156472,0,0,-58.4616617156472); p_lab[2]=Vec4D(12.5759688326908,10.538998614834,6.36501399683677,2.56341512389419); p_lab[3]=Vec4D(54.1643120131946,-10.538998614834,-6.36501399683677,-52.7464577093031); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1742, ta=151.6) * PDF(flb=G, xb=0.08941, tb=151.6) -> 0.0003257 type=none, B=109.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08941, x2=0.1742, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0003257, flux=2.508e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0355695552908367 , PS = 6.83143665753914e-06 -> 2.42991163906187e-07 p_lab[0]=Vec4D(696.790543730154,0,0,-696.790543730154); p_lab[1]=Vec4D(357.646839733504,0,0,357.646839733504); p_lab[2]=Vec4D(696.738963147093,-11.4408454565985,-4.54873061651597,-696.630173673451); p_lab[3]=Vec4D(357.698420316565,11.4408454565985,4.54873061651597,357.486469676801); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.4559, ta=151.8) * PDF(flb=G, xb=0.003758, tb=151.8) -> 0 type=none, B=11.97, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003758, x2=0.4559, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.28e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.001268, ta=154.7) * PDF(flb=G, xb=0.09403, tb=154.7) -> 264 type=none, B=0.784, VI=0, KP=0, K=0 muR2=154.7, muF2=154.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09403, x2=0.001268, x1p=1, x2p=1 Cluster sequence: pdfwgt=264, flux=3.276e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 207.003927325554 , PS = 1.48887060551753e-05 -> 0.00308202062621703 p_lab[0]=Vec4D(5.0717070756508,0,0,-5.07170707565087); p_lab[1]=Vec4D(376.138758300811,0,0,376.138758300811); p_lab[2]=Vec4D(368.614917988597,-0.550107936576049,-12.2996453705591,368.409247805693); p_lab[3]=Vec4D(12.5955473878639,0.550107936576049,12.2996453705591,2.65780341946603); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2488, ta=151.6) * PDF(flb=G, xb=0.08369, tb=151.6) -> 7.634e-09 type=none, B=146, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08369, x2=0.2488, x1p=1, x2p=1 Cluster sequence: pdfwgt=7.634e-09, flux=1.876e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.11452210407125e-06 , PS = 6.35437673297903e-06 -> 7.08209332650119e-12 p_lab[0]=Vec4D(995.186684337108,0,0,-995.186684337108); p_lab[1]=Vec4D(334.773270330351,0,0,334.773270330351); p_lab[2]=Vec4D(334.848398538923,-4.18631920265504,-11.5783689057173,334.621974934549); p_lab[3]=Vec4D(995.111556128537,4.18631920265504,11.5783689057173,-995.035388941305); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.6639, ta=151.6) * PDF(flb=G, xb=0.073, tb=151.6) -> 0 type=none, B=339.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.073, x2=0.6639, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.059e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.83, \mu_f = 12.83. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.83 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.83 \mu_R = 12.83 } PDF(fla=G, xa=0.02262, ta=164.6) * PDF(flb=G, xb=0.001327, tb=164.6) -> 2.023e+04 type=none, B=0.1615, VI=0, KP=0, K=0 muR2=164.6, muF2=164.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02262, x2=0.001327, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.023e+04, flux=0.0001302, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3267.99681897485 , PS = 1.72686999797569e-05 -> 0.0564340566016765 p_lab[0]=Vec4D(90.466168568311,0,0,90.466168568311); p_lab[1]=Vec4D(5.30727763229229,0,0,-5.30727763229229); p_lab[2]=Vec4D(83.1090908936159,12.3029284894823,-0.47100484719977,82.192074400029); p_lab[3]=Vec4D(12.6643553069875,-12.3029284894823,0.47100484719977,2.96681653598979); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.00221, ta=153) * PDF(flb=G, xb=0.1176, tb=153) -> 35.01 type=none, B=1.77, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1176, x2=0.00221, x1p=1, x2p=1 Cluster sequence: pdfwgt=35.01, flux=1.503e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 61.9846004445175 , PS = 1.37990014856955e-05 -> 0.000855325593624138 p_lab[0]=Vec4D(8.8400816735335,0,0,-8.84008167353335); p_lab[1]=Vec4D(470.51727398405,0,0,470.51727398405); p_lab[2]=Vec4D(466.271942062253,0.409733024085206,12.3051214472826,466.109364912916); p_lab[3]=Vec4D(13.0854135953304,-0.409733024085206,-12.3051214472826,-4.43217260239919); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.56, \mu_f = 12.56. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.56 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.56 \mu_R = 12.56 } PDF(fla=G, xa=0.4705, ta=157.7) * PDF(flb=G, xb=0.0001293, tb=157.7) -> 0 type=none, B=0.3753, VI=0, KP=0, K=0 muR2=157.7, muF2=157.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4705, x2=0.0001293, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.424e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.01992, ta=156.8) * PDF(flb=G, xb=0.003577, tb=156.8) -> 6095 type=none, B=0.4483, VI=0, KP=0, K=0 muR2=156.8, muF2=156.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01992, x2=0.003577, x1p=1, x2p=1 Cluster sequence: pdfwgt=6095, flux=5.481e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2732.42666056079 , PS = 1.53409830154611e-05 -> 0.041918110990656 p_lab[0]=Vec4D(79.6942632911524,0,0,79.6942632911524); p_lab[1]=Vec4D(14.3078996288388,0,0,-14.3078996288388); p_lab[2]=Vec4D(16.5584498922544,-8.82942249421443,-8.58051242071595,-11.072414725384); p_lab[3]=Vec4D(77.4437130277368,8.82942249421443,8.58051242071595,76.4587783876975); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.24, \mu_f = 13.24. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.24 -> 'Alpha_QCD'{fac=1.416,cpl=0.118} \mu_F = 13.24 \mu_R = 13.24 } PDF(fla=G, xa=0.2625, ta=175.4) * PDF(flb=G, xb=6.645e-05, tb=175.4) -> 0 type=none, B=0.07646, VI=0, KP=0, K=0 muR2=175.4, muF2=175.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2625, x2=6.645e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.000224, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1512, ta=151.6) * PDF(flb=G, xb=0.1095, tb=151.6) -> 0.0004572 type=none, B=116.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1512, x2=0.1095, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0004572, flux=2.359e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.053075001392645 , PS = 6.73074659443045e-06 -> 3.57234384872937e-07 p_lab[0]=Vec4D(604.640687490238,0,0,604.640687490238); p_lab[1]=Vec4D(438.196736991373,0,0,-438.196736991373); p_lab[2]=Vec4D(438.220546844074,-9.50952902248686,-7.82002255456342,-438.047558812209); p_lab[3]=Vec4D(604.616877637537,9.50952902248686,7.82002255456342,604.491509311074); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.52, \mu_f = 13.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.52 -> 'Alpha_QCD'{fac=1.41,cpl=0.118} \mu_F = 13.52 \mu_R = 13.52 } PDF(fla=G, xa=0.001737, ta=182.9) * PDF(flb=G, xb=0.007962, tb=182.9) -> 1.075e+05 type=none, B=0.05298, VI=0, KP=0, K=0 muR2=182.9, muF2=182.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007962, x2=0.001737, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.075e+05, flux=0.0002825, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5697.59814245615 , PS = 2.54544063125356e-05 -> 0.145028978123627 p_lab[0]=Vec4D(6.94770701582158,0,0,-6.94770701582157); p_lab[1]=Vec4D(31.8481461657482,0,0,31.8481461657482); p_lab[2]=Vec4D(12.4109026801306,-9.29030411683473,8.07924157332384,1.56416442622678); p_lab[3]=Vec4D(26.3849505014391,9.29030411683473,-8.07924157332384,23.3362747236998); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02082, ta=151.7) * PDF(flb=G, xb=0.2367, tb=151.7) -> 0 type=none, B=34.52, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2367, x2=0.02082, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.925e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.04474, ta=151.8) * PDF(flb=G, xb=0.03422, tb=151.8) -> 11.19 type=none, B=10.68, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03422, x2=0.04474, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.19, flux=2.552e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 119.606310781758 , PS = 1.06690420614446e-05 -> 0.00127608476054479 p_lab[0]=Vec4D(178.941640480613,0,0,-178.941640480613); p_lab[1]=Vec4D(136.875972475326,0,0,136.875972475326); p_lab[2]=Vec4D(178.876454268398,1.24620612938991,-12.2487087183291,-178.45224009984); p_lab[3]=Vec4D(136.94115868754,-1.24620612938991,12.2487087183291,136.386572094553); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1028, ta=151.6) * PDF(flb=G, xb=0.2789, tb=151.6) -> 0 type=none, B=201.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1028, x2=0.2789, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.362e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.007099, ta=152.3) * PDF(flb=G, xb=0.06892, tb=152.3) -> 65.58 type=none, B=3.379, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06892, x2=0.007099, x1p=1, x2p=1 Cluster sequence: pdfwgt=65.58, flux=7.984e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 221.562496311704 , PS = 1.26304661650807e-05 -> 0.0027984376131158 p_lab[0]=Vec4D(28.39781637667,0,0,-28.39781637667); p_lab[1]=Vec4D(275.667228002951,0,0,275.667228002951); p_lab[2]=Vec4D(29.6006655489205,12.1385903679523,-2.05876634479378,-26.9186832136278); p_lab[3]=Vec4D(274.4643788307,-12.1385903679523,2.05876634479378,274.188094839909); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.0005826, ta=153) * PDF(flb=G, xb=0.4322, tb=153) -> 0 type=none, B=1.713, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005826, x2=0.4322, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.551e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.05377, ta=151.9) * PDF(flb=G, xb=0.02299, tb=151.9) -> 17.32 type=none, B=8.619, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02299, x2=0.05377, x1p=1, x2p=1 Cluster sequence: pdfwgt=17.32, flux=3.16e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 149.311775389848 , PS = 1.10288725900691e-05 -> 0.00164674054697165 p_lab[0]=Vec4D(215.063614500746,0,0,-215.063614500746); p_lab[1]=Vec4D(91.9787557370389,0,0,91.9787557370389); p_lab[2]=Vec4D(214.827361337574,-11.3448221683134,4.78318983030639,-214.47426718439); p_lab[3]=Vec4D(92.2150089002105,11.3448221683134,-4.78318983030639,91.3894084206835); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.0557, ta=152.9) * PDF(flb=G, xb=0.005027, tb=152.9) -> 269.3 type=none, B=1.911, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005027, x2=0.0557, x1p=1, x2p=1 Cluster sequence: pdfwgt=269.3, flux=1.395e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 514.67838888575 , PS = 1.36564934387087e-05 -> 0.00702870204086341 p_lab[0]=Vec4D(222.784839681916,0,0,-222.784839681916); p_lab[1]=Vec4D(20.1082901079001,0,0,20.1082901079001); p_lab[2]=Vec4D(21.8375374571412,5.54002892714125,10.9950886522046,18.0359127079459); p_lab[3]=Vec4D(221.055592332675,-5.54002892714125,-10.9950886522046,-220.712462281962); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.006427, ta=151.7) * PDF(flb=G, xb=0.478, tb=151.7) -> 0 type=none, B=21.49, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.478, x2=0.006427, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.272e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.06091, ta=155.9) * PDF(flb=G, xb=0.001418, tb=155.9) -> 1203 type=none, B=0.554, VI=0, KP=0, K=0 muR2=155.9, muF2=155.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06091, x2=0.001418, x1p=1, x2p=1 Cluster sequence: pdfwgt=1203, flux=4.522e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 666.503079850225 , PS = 1.51391902210241e-05 -> 0.010090316908751 p_lab[0]=Vec4D(243.648357502934,0,0,243.648357502934); p_lab[1]=Vec4D(5.67286439187865,0,0,-5.6728643918786); p_lab[2]=Vec4D(12.3869756766344,10.104146732308,7.03492102268322,1.36134912132491); p_lab[3]=Vec4D(236.934246218178,-10.104146732308,-7.03492102268322,236.614143989731); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.0334, ta=156.3) * PDF(flb=G, xb=0.002344, tb=156.3) -> 3680 type=none, B=0.4974, VI=0, KP=0, K=0 muR2=156.3, muF2=156.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002344, x2=0.0334, x1p=1, x2p=1 Cluster sequence: pdfwgt=3680, flux=4.989e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1830.6443522574 , PS = 1.52364906318143e-05 -> 0.0278925955233537 p_lab[0]=Vec4D(133.586906952773,0,0,-133.586906952773); p_lab[1]=Vec4D(9.37748603935906,0,0,9.37748603935909); p_lab[2]=Vec4D(129.708307399534,5.6131693197611,10.9579297849135,-129.122659179048); p_lab[3]=Vec4D(13.2560855925982,-5.6131693197611,-10.9579297849135,4.91323826563401); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1352, ta=151.7) * PDF(flb=G, xb=0.02765, tb=151.7) -> 0.134 type=none, B=26.16, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1352, x2=0.02765, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.134, flux=1.045e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.50652591894998 , PS = 9.18285365842372e-06 -> 3.21999143631874e-05 p_lab[0]=Vec4D(540.791443502491,0,0,540.791443502491); p_lab[1]=Vec4D(110.585141793845,0,0,-110.585141793845); p_lab[2]=Vec4D(110.857925679481,11.0073149408815,-5.5156969437821,-110.172118936571); p_lab[3]=Vec4D(540.518659616855,-11.0073149408815,5.5156969437821,540.378420645216); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.501, ta=151.6) * PDF(flb=G, xb=0.02376, tb=151.6) -> 0 type=none, B=83.45, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02376, x2=0.501, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.281e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1546, ta=151.8) * PDF(flb=G, xb=0.01051, tb=151.8) -> 0.4955 type=none, B=11.35, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01051, x2=0.1546, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.4955, flux=2.403e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5.62332216260831 , PS = 1.0568230102544e-05 -> 5.94285625551797e-05 p_lab[0]=Vec4D(618.454669836848,0,0,-618.454669836848); p_lab[1]=Vec4D(42.0556401870282,0,0,42.0556401870282); p_lab[2]=Vec4D(617.613626553461,6.67275576444778,-10.3468944853724,-617.490896944671); p_lab[3]=Vec4D(42.8966834704158,-6.67275576444778,10.3468944853724,41.091867294851); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2305, ta=151.7) * PDF(flb=G, xb=0.02305, tb=151.7) -> -0.000377 type=none, B=37.22, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02305, x2=0.2305, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.000377, flux=7.351e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0140306811791756 , PS = 8.60154922640917e-06 -> -1.20685594842732e-07 p_lab[0]=Vec4D(922.125806226169,0,0,-922.125806226169); p_lab[1]=Vec4D(92.2022587148831,0,0,92.2022587148829); p_lab[2]=Vec4D(92.5723365921675,-4.88486472540698,11.3014154687754,91.7499515375903); p_lab[3]=Vec4D(921.755728348884,4.88486472540698,-11.3014154687754,-921.673499048876); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.001464, ta=152.8) * PDF(flb=G, xb=0.1966, tb=152.8) -> -0.1671 type=none, B=1.966, VI=0, KP=0, K=0 muR2=152.8, muF2=152.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1966, x2=0.001464, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.1671, flux=1.357e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.328486258972123 , PS = 1.36037394752106e-05 -> -4.46864148824334e-06 p_lab[0]=Vec4D(5.85585334547961,0,0,-5.85585334547963); p_lab[1]=Vec4D(786.50606113105,0,0,786.50606113105); p_lab[2]=Vec4D(12.3328793669995,-12.2782114185378,-0.910724626376707,0.71834427509603); p_lab[3]=Vec4D(780.029035109527,12.2782114185378,0.910724626376707,779.931863510471); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03492, ta=151.7) * PDF(flb=G, xb=0.1112, tb=151.7) -> 0.3123 type=none, B=27.19, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1112, x2=0.03492, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3123, flux=1.006e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.49176377712917 , PS = 9.11905599059093e-06 -> 7.74368693425128e-05 p_lab[0]=Vec4D(139.674337987075,0,0,-139.674337987075); p_lab[1]=Vec4D(444.998315803352,0,0,444.998315803351); p_lab[2]=Vec4D(139.860608464087,8.27113173067408,-9.11988349033238,-139.317643911176); p_lab[3]=Vec4D(444.81204532634,-8.27113173067408,9.11988349033238,444.641621727452); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.007815, ta=151.7) * PDF(flb=G, xb=0.4159, tb=151.7) -> 0 type=none, B=22.74, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4159, x2=0.007815, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.202e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01619, ta=151.9) * PDF(flb=G, xb=0.07557, tb=151.9) -> 11.99 type=none, B=8.527, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01619, x2=0.07557, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.99, flux=3.193e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 102.274279169637 , PS = 1.10468263032442e-05 -> 0.00112980619727649 p_lab[0]=Vec4D(64.7464517561422,0,0,64.7464517561422); p_lab[1]=Vec4D(302.290805441865,0,0,-302.290805441865); p_lab[2]=Vec4D(301.829976009056,-12.2952159621512,-0.641528976323125,-301.578763381382); p_lab[3]=Vec4D(65.2072811889513,12.2952159621512,0.641528976323125,64.0344096956595); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.003441, ta=156.3) * PDF(flb=G, xb=0.02274, tb=156.3) -> 5102 type=none, B=0.4971, VI=0, KP=0, K=0 muR2=156.3, muF2=156.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003441, x2=0.02274, x1p=1, x2p=1 Cluster sequence: pdfwgt=5102, flux=4.993e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2535.94817970109 , PS = 1.52372309318157e-05 -> 0.0386408280452233 p_lab[0]=Vec4D(13.7637067320507,0,0,13.7637067320506); p_lab[1]=Vec4D(90.9512091084038,0,0,-90.9512091084037); p_lab[2]=Vec4D(88.5391717065371,-11.783674623637,3.56775942962152,-87.6789657300784); p_lab[3]=Vec4D(16.1757441339173,11.783674623637,-3.56775942962152,10.4914633537253); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.85, \mu_f = 12.85. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.85 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.85 \mu_R = 12.85 } PDF(fla=G, xa=0.2232, ta=165.1) * PDF(flb=G, xb=0.0001293, tb=165.1) -> -0.1203 type=none, B=0.1537, VI=0, KP=0, K=0 muR2=165.1, muF2=165.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2232, x2=0.0001293, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.1203, flux=0.0001353, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0184886179537266 , PS = 1.74287015543893e-05 -> -3.22232604468625e-07 p_lab[0]=Vec4D(892.758286792796,0,0,892.758286792796); p_lab[1]=Vec4D(0.517312039851178,0,0,-0.517312039851141); p_lab[2]=Vec4D(812.287587154152,7.8376561415951,9.49500085252851,812.194275004282); p_lab[3]=Vec4D(80.9880116784708,-7.8376561415951,-9.49500085252851,80.0466997486387); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.007237, ta=155.8) * PDF(flb=G, xb=0.01201, tb=155.8) -> 5479 type=none, B=0.5579, VI=0, KP=0, K=0 muR2=155.8, muF2=155.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01201, x2=0.007237, x1p=1, x2p=1 Cluster sequence: pdfwgt=5479, flux=4.493e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3056.55402313825 , PS = 1.51333232250691e-05 -> 0.0462558199870365 p_lab[0]=Vec4D(28.9465876528015,0,0,-28.9465876528015); p_lab[1]=Vec4D(48.0519973912781,0,0,48.0519973912781); p_lab[2]=Vec4D(47.5164622263995,-6.74154860923235,10.3022044889799,45.8936846148732); p_lab[3]=Vec4D(29.4821228176802,6.74154860923235,-10.3022044889799,-26.7882748763966); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.94, \mu_f = 13.94. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.94 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.94 \mu_R = 13.94 } PDF(fla=G, xa=0.04734, ta=194.4) * PDF(flb=G, xb=0.0002272, tb=194.4) -> 3.482e+04 type=none, B=0.03388, VI=0, KP=0, K=0 muR2=194.4, muF2=194.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04734, x2=0.0002272, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.482e+04, flux=0.0003632, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1179.58802989134 , PS = 4.13769361523108e-05 -> 0.0488077385988442 p_lab[0]=Vec4D(189.35628723071,0,0,189.35628723071); p_lab[1]=Vec4D(0.908847637946884,0,0,-0.908847637946895); p_lab[2]=Vec4D(127.662271106149,-9.42236898914677,7.92482539970224,127.0671931263); p_lab[3]=Vec4D(62.6028637625088,9.42236898914677,-7.92482539970224,61.3802464664638); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01357, ta=151.9) * PDF(flb=G, xb=0.09438, tb=151.9) -> 5.845 type=none, B=8.931, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09438, x2=0.01357, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.845, flux=3.05e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 52.2030842816825 , PS = 1.09690340610411e-05 -> 0.000572617409577177 p_lab[0]=Vec4D(54.2870333729012,0,0,-54.2870333729012); p_lab[1]=Vec4D(377.525802572225,0,0,377.525802572225); p_lab[2]=Vec4D(376.927006368706,11.9982907068884,2.76132488063193,376.725874124795); p_lab[3]=Vec4D(54.88582957642,-11.9982907068884,-2.76132488063193,-53.4871049254717); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.92, \mu_f = 13.92. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.92 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.92 \mu_R = 13.92 } PDF(fla=G, xa=0.005101, ta=193.9) * PDF(flb=G, xb=0.002128, tb=193.9) -> 1.707e+05 type=none, B=0.03446, VI=0, KP=0, K=0 muR2=193.9, muF2=193.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002128, x2=0.005101, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.707e+05, flux=0.0003599, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5882.39721815203 , PS = 4.0082914580609e-05 -> 0.2357836252244 p_lab[0]=Vec4D(20.402839024334,0,0,-20.402839024334); p_lab[1]=Vec4D(8.51046270004267,0,0,8.51046270004267); p_lab[2]=Vec4D(16.5757805981953,9.72622019056157,7.54881022334732,-11.0983155233624); p_lab[3]=Vec4D(12.3375211261814,-9.72622019056157,-7.54881022334732,-0.79406080092898); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.4615, ta=155.2) * PDF(flb=G, xb=0.0002218, tb=155.2) -> 0 type=none, B=0.6657, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4615, x2=0.0002218, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.817e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3287, ta=151.6) * PDF(flb=G, xb=0.1723, tb=151.6) -> 0 type=none, B=397.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1723, x2=0.3287, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.898e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03575, ta=151.8) * PDF(flb=G, xb=0.04357, tb=151.8) -> 10.56 type=none, B=10.87, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04357, x2=0.03575, x1p=1, x2p=1 Cluster sequence: pdfwgt=10.56, flux=2.508e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 114.756304313268 , PS = 1.06399618414175e-05 -> 0.00122100269895526 p_lab[0]=Vec4D(142.987117656791,0,0,-142.987117656791); p_lab[1]=Vec4D(174.286830844656,0,0,174.286830844656); p_lab[2]=Vec4D(174.239162083095,1.4904159377823,12.2213974371103,173.803629733201); p_lab[3]=Vec4D(143.034786418352,-1.4904159377823,-12.2213974371103,-142.503916545336); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04955, ta=151.6) * PDF(flb=G, xb=0.687, tb=151.6) -> 0 type=none, B=238.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.687, x2=0.04955, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.147e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.0005018, ta=154.6) * PDF(flb=G, xb=0.2443, tb=154.6) -> -0.007025 type=none, B=0.8074, VI=0, KP=0, K=0 muR2=154.6, muF2=154.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005018, x2=0.2443, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.007025, flux=3.187e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00567213523533376 , PS = 1.48711684893005e-05 -> -8.43512787787463e-08 p_lab[0]=Vec4D(2.0072053336644,0,0,2.00720533366439); p_lab[1]=Vec4D(977.123560109957,0,0,-977.123560109957); p_lab[2]=Vec4D(21.2272268224541,-12.2664232070857,-1.05771295164108,-17.2919421577946); p_lab[3]=Vec4D(957.903538621166,12.2664232070857,1.05771295164108,-957.824412618496); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.2911, ta=151.7) * PDF(flb=G, xb=0.009205, tb=151.7) -> 0 type=none, B=18.74, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2911, x2=0.009205, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.458e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04131, ta=151.6) * PDF(flb=G, xb=0.1875, tb=151.6) -> -0.0003531 type=none, B=54.29, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1875, x2=0.04131, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0003531, flux=5.042e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0191698065612942 , PS = 7.98021655728363e-06 -> -1.52979207720365e-07 p_lab[0]=Vec4D(165.243366725547,0,0,-165.243366725547); p_lab[1]=Vec4D(750.102727634035,0,0,750.102727634035); p_lab[2]=Vec4D(749.923859664282,-8.16467241458312,9.21531439213801,749.822786662815); p_lab[3]=Vec4D(165.4222346953,8.16467241458312,-9.21531439213801,-164.963425754327); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.005398, ta=152.3) * PDF(flb=G, xb=0.09441, tb=152.3) -> 28.94 type=none, B=3.521, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09441, x2=0.005398, x1p=1, x2p=1 Cluster sequence: pdfwgt=28.94, flux=7.665e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 101.920129347262 , PS = 1.25579578670465e-05 -> 0.00127990869014685 p_lab[0]=Vec4D(21.5915716092593,0,0,-21.5915716092593); p_lab[1]=Vec4D(377.652440750113,0,0,377.652440750113); p_lab[2]=Vec4D(375.989895955709,12.0534583383166,2.50958902409668,375.78826214479); p_lab[3]=Vec4D(23.2541164036637,-12.0534583383166,-2.50958902409668,-19.7273930039359); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.07441, ta=151.8) * PDF(flb=G, xb=0.02312, tb=151.8) -> 5.86 type=none, B=12.01, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02312, x2=0.07441, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.86, flux=2.27e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 70.4057992925252 , PS = 1.04731672439343e-05 -> 0.00073737171093349 p_lab[0]=Vec4D(297.642289559553,0,0,-297.642289559553); p_lab[1]=Vec4D(92.4864377772022,0,0,92.4864377772022); p_lab[2]=Vec4D(92.769253400094,-0.4505183274203,12.3036957138926,91.9486295788439); p_lab[3]=Vec4D(297.359473936661,0.4505183274203,-12.3036957138926,-297.104481361195); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7867, ta=151.6) * PDF(flb=G, xb=0.04907, tb=151.6) -> 0 type=none, B=270.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7867, x2=0.04907, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.012e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.0003731, ta=155.2) * PDF(flb=G, xb=0.2749, tb=155.2) -> 0 type=none, B=0.6673, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003731, x2=0.2749, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.808e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.0858, ta=153.4) * PDF(flb=G, xb=0.002374, tb=153.4) -> 193.4 type=none, B=1.376, VI=0, KP=0, K=0 muR2=153.4, muF2=153.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002374, x2=0.0858, x1p=1, x2p=1 Cluster sequence: pdfwgt=193.4, flux=1.917e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 266.139116392449 , PS = 1.42812783370872e-05 -> 0.00380080679758701 p_lab[0]=Vec4D(343.209242018781,0,0,-343.209242018781); p_lab[1]=Vec4D(9.49720796730585,0,0,9.49720796730584); p_lab[2]=Vec4D(339.283248152728,-2.38029628979831,12.079655812819,-339.059786147049); p_lab[3]=Vec4D(13.4232018333594,2.38029628979831,-12.079655812819,5.34775209557273); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1544, ta=151.6) * PDF(flb=G, xb=0.2335, tb=151.6) -> 0 type=none, B=252.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2335, x2=0.1544, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.083e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.0009032, ta=152.3) * PDF(flb=G, xb=0.5425, tb=152.3) -> 0 type=none, B=3.383, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0009032, x2=0.5425, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.973e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0036, ta=151.7) * PDF(flb=G, xb=0.6408, tb=151.7) -> 0 type=none, B=16.13, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0036, x2=0.6408, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.693e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.001517, ta=152) * PDF(flb=G, xb=0.5228, tb=152) -> 0 type=none, B=5.509, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001517, x2=0.5228, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.926e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.001469, ta=156.5) * PDF(flb=G, xb=0.05104, tb=156.5) -> 2020 type=none, B=0.4743, VI=0, KP=0, K=0 muR2=156.5, muF2=156.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05104, x2=0.001469, x1p=1, x2p=1 Cluster sequence: pdfwgt=2020, flux=5.209e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 958.190159045396 , PS = 1.52829404632525e-05 -> 0.0146439631531653 p_lab[0]=Vec4D(5.87697659138587,0,0,-5.8769765913859); p_lab[1]=Vec4D(204.154440191354,0,0,204.154440191354); p_lab[2]=Vec4D(197.680473376811,-8.58756654332734,-8.82256175083663,197.296694497137); p_lab[3]=Vec4D(12.3509434059293,8.58756654332734,8.82256175083663,0.980769102831388); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.31, \mu_f = 13.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.31 -> 'Alpha_QCD'{fac=1.415,cpl=0.118} \mu_F = 13.31 \mu_R = 13.31 } PDF(fla=G, xa=0.1973, ta=177.1) * PDF(flb=G, xb=8.338e-05, tb=177.1) -> -7.851 type=none, B=0.06995, VI=0, KP=0, K=0 muR2=177.1, muF2=177.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1973, x2=8.338e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=-7.851, flux=0.0002374, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.549213066476527 , PS = 2.19352507968666e-05 -> -1.20471263540788e-05 p_lab[0]=Vec4D(789.187617003891,0,0,789.187617003891); p_lab[1]=Vec4D(0.333524588923787,0,0,-0.333524588923767); p_lab[2]=Vec4D(137.89714301031,-12.1605593692068,1.92475733831511,137.346416609326); p_lab[3]=Vec4D(651.623998582535,12.1605593692068,-1.92475733831511,651.507675805671); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.007462, ta=151.7) * PDF(flb=G, xb=0.5099, tb=151.7) -> 0 type=none, B=26.64, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007462, x2=0.5099, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.027e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.85, \mu_f = 13.85. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.85 -> 'Alpha_QCD'{fac=1.403,cpl=0.118} \mu_F = 13.85 \mu_R = 13.85 } PDF(fla=G, xa=0.02836, ta=191.9) * PDF(flb=G, xb=0.0003972, tb=191.9) -> 7.132e+04 type=none, B=0.03696, VI=0, KP=0, K=0 muR2=191.9, muF2=191.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003972, x2=0.02836, x1p=1, x2p=1 Cluster sequence: pdfwgt=7.132e+04, flux=0.0003468, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2636.00333467645 , PS = 3.58275476874197e-05 -> 0.0944415351773181 p_lab[0]=Vec4D(113.445904109133,0,0,-113.445904109133); p_lab[1]=Vec4D(1.58874459135604,0,0,1.58874459135604); p_lab[2]=Vec4D(35.2178359650375,-8.17224803004587,-9.20859691368951,-32.9956372127724); p_lab[3]=Vec4D(79.8168127354518,8.17224803004587,9.20859691368951,-78.8615223050048); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.06511, ta=152.6) * PDF(flb=G, xb=0.005445, tb=152.6) -> 143.3 type=none, B=2.434, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005445, x2=0.06511, x1p=1, x2p=1 Cluster sequence: pdfwgt=143.3, flux=1.102e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 348.763488070723 , PS = 1.32139140862529e-05 -> 0.00460853076778842 p_lab[0]=Vec4D(260.439470653145,0,0,-260.439470653145); p_lab[1]=Vec4D(21.7801975624346,0,0,21.7801975624346); p_lab[2]=Vec4D(23.3854143315471,9.44394969390612,7.89909546482198,19.8819945798888); p_lab[3]=Vec4D(258.834253884032,-9.44394969390612,-7.89909546482198,-258.541267670599); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.001144, ta=153.1) * PDF(flb=G, xb=0.2133, tb=153.1) -> -0.2124 type=none, B=1.659, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001144, x2=0.2133, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.2124, flux=1.601e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.352343162022756 , PS = 1.39221193564745e-05 -> -4.90536355611842e-06 p_lab[0]=Vec4D(4.57641839480071,0,0,4.57641839480095); p_lab[1]=Vec4D(853.090580302374,0,0,-853.090580302374); p_lab[2]=Vec4D(844.772758602636,5.59030515861999,10.9696118079405,-844.683035097855); p_lab[3]=Vec4D(12.8942400945349,-5.59030515861999,-10.9696118079405,-3.83112680971433); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05988, ta=151.6) * PDF(flb=G, xb=0.385, tb=151.6) -> 0 type=none, B=161.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05988, x2=0.385, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.694e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.00293, ta=152) * PDF(flb=G, xb=0.2959, tb=152) -> 0 type=none, B=6.027, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00293, x2=0.2959, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.506e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1546, ta=151.7) * PDF(flb=G, xb=0.01442, tb=151.7) -> 0.1163 type=none, B=15.58, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1546, x2=0.01442, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1163, flux=1.752e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.81233179276206 , PS = 1.00405349466113e-05 -> 1.81967807000822e-05 p_lab[0]=Vec4D(618.503984339963,0,0,618.503984339963); p_lab[1]=Vec4D(57.6696806680202,0,0,-57.6696806680203); p_lab[2]=Vec4D(58.2661659602543,8.70859626419108,8.7031170330358,-56.9505241479348); p_lab[3]=Vec4D(617.907499047728,-8.70859626419108,-8.7031170330358,617.784827819877); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.4138, ta=152.1) * PDF(flb=G, xb=0.001587, tb=152.1) -> 0 type=none, B=4.552, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001587, x2=0.4138, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.949e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01302, ta=151.7) * PDF(flb=G, xb=0.245, tb=151.7) -> -2.926e-05 type=none, B=22.32, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01302, x2=0.245, x1p=1, x2p=1 Cluster sequence: pdfwgt=-2.926e-05, flux=1.224e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00065309048982466 , PS = 9.44516509675979e-06 -> -6.16854749951764e-09 p_lab[0]=Vec4D(52.0884743456298,0,0,52.0884743456299); p_lab[1]=Vec4D(979.918964455149,0,0,-979.918964455149); p_lab[2]=Vec4D(979.229593934009,11.2248853756265,-5.05824507981244,-979.152191306939); p_lab[3]=Vec4D(52.7778448667692,-11.2248853756265,5.05824507981244,51.3217011974209); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.08888, ta=151.9) * PDF(flb=G, xb=0.01234, tb=151.9) -> 11.01 type=none, B=7.642, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01234, x2=0.08888, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.01, flux=3.56e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 84.1536828518832 , PS = 1.1231144105617e-05 -> 0.000945142139127893 p_lab[0]=Vec4D(355.513444425036,0,0,-355.513444425036); p_lab[1]=Vec4D(49.3763237835128,0,0,49.3763237835129); p_lab[2]=Vec4D(50.0386545068625,-11.6318550223394,4.03532448790418,48.5003407191512); p_lab[3]=Vec4D(354.851113701686,11.6318550223394,-4.03532448790418,-354.637461360674); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.0002068, ta=154) * PDF(flb=G, xb=0.7331, tb=154) -> 0 type=none, B=1.011, VI=0, KP=0, K=0 muR2=154, muF2=154, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7331, x2=0.0002068, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.577e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2345, ta=151.6) * PDF(flb=G, xb=0.04584, tb=151.6) -> -3.61e-05 type=none, B=75.35, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04584, x2=0.2345, x1p=1, x2p=1 Cluster sequence: pdfwgt=-3.61e-05, flux=3.634e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00272003642593491 , PS = 7.44095860546594e-06 -> -2.02396784507412e-08 p_lab[0]=Vec4D(938.090890519258,0,0,-938.090890519258); p_lab[1]=Vec4D(183.359846596939,0,0,183.359846596939); p_lab[2]=Vec4D(183.526161758622,-4.28767024668401,11.5412208556591,183.112719806322); p_lab[3]=Vec4D(937.924575357575,4.28767024668401,-11.5412208556591,-937.843763728641); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3242, ta=151.6) * PDF(flb=G, xb=0.1113, tb=151.6) -> 0 type=none, B=253.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1113, x2=0.3242, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.083e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.89, \mu_f = 12.89. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.89 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.89 \mu_R = 12.89 } PDF(fla=G, xa=0.002049, ta=166.1) * PDF(flb=G, xb=0.01322, tb=166.1) -> 3.299e+04 type=none, B=0.1415, VI=0, KP=0, K=0 muR2=166.1, muF2=166.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01322, x2=0.002049, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.299e+04, flux=0.0001442, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4668.91883356934 , PS = 1.77142813141556e-05 -> 0.0827065416508063 p_lab[0]=Vec4D(8.19717372241212,0,0,-8.19717372241211); p_lab[1]=Vec4D(52.8792176960891,0,0,52.8792176960891); p_lab[2]=Vec4D(12.5222240677998,-0.68090593622146,12.2930981485311,-2.28521347378863); p_lab[3]=Vec4D(48.5541673507014,0.68090593622146,-12.2930981485311,46.9672574474657); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1448, ta=151.6) * PDF(flb=G, xb=0.08704, tb=151.6) -> 0.002125 type=none, B=88.34, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1448, x2=0.08704, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.002125, flux=3.1e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.187686121008547 , PS = 7.17960673743093e-06 -> 1.34751253891524e-06 p_lab[0]=Vec4D(579.129162790996,0,0,579.129162790996); p_lab[1]=Vec4D(348.171777153212,0,0,-348.171777153212); p_lab[2]=Vec4D(348.215191929923,2.59256161415994,-12.0358846480093,-347.997465501991); p_lab[3]=Vec4D(579.085748014284,-2.59256161415994,12.0358846480093,578.954851139776); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.16, \mu_f = 13.16. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.16 -> 'Alpha_QCD'{fac=1.418,cpl=0.118} \mu_F = 13.16 \mu_R = 13.16 } PDF(fla=G, xa=0.1225, ta=173.1) * PDF(flb=G, xb=0.0001554, tb=173.1) -> 1074 type=none, B=0.08702, VI=0, KP=0, K=0 muR2=173.1, muF2=173.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1225, x2=0.0001554, x1p=1, x2p=1 Cluster sequence: pdfwgt=1074, flux=0.0002052, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 93.4378314464878 , PS = 2.01576733921843e-05 -> 0.00188348928877227 p_lab[0]=Vec4D(489.880378943289,0,0,489.880378943289); p_lab[1]=Vec4D(0.621594237519421,0,0,-0.621594237519577); p_lab[2]=Vec4D(418.609998590858,-12.0389994041188,-2.57805902396132,418.42890319056); p_lab[3]=Vec4D(71.8919745899449,12.0389994041188,2.57805902396132,70.8298815152043); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.59, \mu_f = 12.59. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.59 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.59 \mu_R = 12.59 } PDF(fla=G, xa=0.005016, ta=158.6) * PDF(flb=G, xb=0.01067, tb=158.6) -> 1.268e+04 type=none, B=0.3244, VI=0, KP=0, K=0 muR2=158.6, muF2=158.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005016, x2=0.01067, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.268e+04, flux=7.301e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4112.63321379573 , PS = 1.57469405689804e-05 -> 0.0647613907996563 p_lab[0]=Vec4D(20.0643324572241,0,0,20.0643324572241); p_lab[1]=Vec4D(42.666647370999,0,0,-42.666647370999); p_lab[2]=Vec4D(41.6174033000623,-2.33842214393264,12.0878317683597,-39.7545514684374); p_lab[3]=Vec4D(21.1135765281607,2.33842214393264,-12.0878317683597,17.1522365546625); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01423, ta=151.7) * PDF(flb=G, xb=0.2296, tb=151.7) -> -0.001167 type=none, B=22.87, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01423, x2=0.2296, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.001167, flux=1.195e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0266833634552299 , PS = 9.40542083824604e-06 -> -2.50968262676312e-07 p_lab[0]=Vec4D(56.918769980179,0,0,56.9187699801788); p_lab[1]=Vec4D(918.527708842262,0,0,-918.527708842262); p_lab[2]=Vec4D(917.902722340766,8.35773996283802,9.0405795000642,-917.820147842488); p_lab[3]=Vec4D(57.5437564816741,-8.35773996283802,-9.0405795000642,56.2112089804054); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.49, \mu_f = 12.49. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.49 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.49 \mu_R = 12.49 } PDF(fla=G, xa=0.007279, ta=156) * PDF(flb=G, xb=0.01152, tb=156) -> 5872 type=none, B=0.5362, VI=0, KP=0, K=0 muR2=156, muF2=156, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01152, x2=0.007279, x1p=1, x2p=1 Cluster sequence: pdfwgt=5872, flux=4.659e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3148.79688455371 , PS = 1.51676165959494e-05 -> 0.0477597438834305 p_lab[0]=Vec4D(29.1158860576355,0,0,-29.1158860576355); p_lab[1]=Vec4D(46.0711993478506,0,0,46.0711993478506); p_lab[2]=Vec4D(45.5778394899075,7.18982293264961,9.99451555507051,43.8834314700249); p_lab[3]=Vec4D(29.6092459155786,-7.18982293264961,-9.99451555507051,-26.9281181798099); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.04784, ta=152.3) * PDF(flb=G, xb=0.0111, tb=152.3) -> 109.1 type=none, B=3.671, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0111, x2=0.04784, x1p=1, x2p=1 Cluster sequence: pdfwgt=109.1, flux=7.357e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 400.451904220442 , PS = 1.24851952443301e-05 -> 0.004999720210156 p_lab[0]=Vec4D(191.347871784137,0,0,-191.347871784137); p_lab[1]=Vec4D(44.4001604134138,0,0,44.4001604134137); p_lab[2]=Vec4D(190.689459401866,10.2620356780454,-6.80253766810034,-190.291581610939); p_lab[3]=Vec4D(45.0585727956848,-10.2620356780454,6.80253766810034,43.3438702402153); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2752, ta=151.7) * PDF(flb=G, xb=0.01734, tb=151.7) -> 0 type=none, B=33.42, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2752, x2=0.01734, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.185e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.6082, ta=153.1) * PDF(flb=G, xb=0.0004032, tb=153.1) -> 0 type=none, B=1.667, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004032, x2=0.6082, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.593e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2631, ta=151.6) * PDF(flb=G, xb=0.09102, tb=151.6) -> 0 type=none, B=167.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09102, x2=0.2631, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.631e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05698, ta=151.6) * PDF(flb=G, xb=0.7186, tb=151.6) -> 0 type=none, B=287.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05698, x2=0.7186, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.54e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.6, \mu_f = 12.6. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.6 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.6 \mu_R = 12.6 } PDF(fla=G, xa=0.001778, ta=158.8) * PDF(flb=G, xb=0.0293, tb=158.8) -> 7694 type=none, B=0.3145, VI=0, KP=0, K=0 muR2=158.8, muF2=158.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001778, x2=0.0293, x1p=1, x2p=1 Cluster sequence: pdfwgt=7694, flux=7.499e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2419.95326429044 , PS = 1.5793171319118e-05 -> 0.0382187364871978 p_lab[0]=Vec4D(7.11203165234194,0,0,7.11203165234193); p_lab[1]=Vec4D(117.186474901585,0,0,-117.186474901585); p_lab[2]=Vec4D(111.930451549867,10.6399258876039,6.19482623563376,-111.25125657346); p_lab[3]=Vec4D(12.36805500406,-10.6399258876039,-6.19482623563376,1.17681332421641); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.04012, ta=155.6) * PDF(flb=G, xb=0.002266, tb=155.6) -> 2397 type=none, B=0.5858, VI=0, KP=0, K=0 muR2=155.6, muF2=155.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002266, x2=0.04012, x1p=1, x2p=1 Cluster sequence: pdfwgt=2397, flux=4.296e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1403.87477802282 , PS = 1.50928881518229e-05 -> 0.0211885250038637 p_lab[0]=Vec4D(160.465818431387,0,0,-160.465818431387); p_lab[1]=Vec4D(9.06584116862849,0,0,9.06584116862851); p_lab[2]=Vec4D(156.413430491672,-11.6121734840456,-4.09161605723578,-155.928115948311); p_lab[3]=Vec4D(13.1182291083435,11.6121734840456,4.09161605723578,4.52813868555177); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.005358, ta=151.8) * PDF(flb=G, xb=0.3401, tb=151.8) -> 0 type=none, B=12.73, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005358, x2=0.3401, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.143e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.4873, ta=153.7) * PDF(flb=G, xb=0.0003454, tb=153.7) -> 0 type=none, B=1.128, VI=0, KP=0, K=0 muR2=153.7, muF2=153.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003454, x2=0.4873, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.321e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4276, ta=151.6) * PDF(flb=G, xb=0.01509, tb=151.6) -> 0 type=none, B=45.19, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01509, x2=0.4276, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.056e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.0003725, ta=153.2) * PDF(flb=G, xb=0.6185, tb=153.2) -> 0 type=none, B=1.563, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003725, x2=0.6185, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.695e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.0006972, ta=154.2) * PDF(flb=G, xb=0.1998, tb=154.2) -> -0.2676 type=none, B=0.9244, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0006972, x2=0.1998, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.2676, flux=2.805e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.247345341934293 , PS = 1.47970928328299e-05 -> -3.65999198636978e-06 p_lab[0]=Vec4D(2.78868469416964,0,0,2.78868469416983); p_lab[1]=Vec4D(799.053414529805,0,0,-799.053414529805); p_lab[2]=Vec4D(785.27316531075,-2.76879052807993,11.996570092948,-785.176642713078); p_lab[3]=Vec4D(16.5689339132254,2.76879052807993,-11.996570092948,-11.0880871225577); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5877, ta=151.6) * PDF(flb=G, xb=0.01352, tb=151.6) -> 0 type=none, B=55.66, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5877, x2=0.01352, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.918e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1604, ta=151.6) * PDF(flb=G, xb=0.3265, tb=151.6) -> 0 type=none, B=367.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1604, x2=0.3265, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.459e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1846, ta=151.9) * PDF(flb=G, xb=0.006442, tb=151.9) -> 0.07045 type=none, B=8.287, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006442, x2=0.1846, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.07045, flux=3.285e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.583851086989472 , PS = 1.10948054455956e-05 -> 6.47771421934772e-06 p_lab[0]=Vec4D(738.267833275524,0,0,-738.267833275524); p_lab[1]=Vec4D(25.7694922316015,0,0,25.7694922316014); p_lab[2]=Vec4D(27.1915747562984,5.07850027747296,-11.2157358169274,24.2445425352586); p_lab[3]=Vec4D(736.845750750828,-5.07850027747296,11.2157358169274,-736.742883579182); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.4964, ta=151.9) * PDF(flb=G, xb=0.002694, tb=151.9) -> 0 type=none, B=9.328, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4964, x2=0.002694, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.921e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.04978, ta=153.3) * PDF(flb=G, xb=0.004346, tb=153.3) -> 477.3 type=none, B=1.465, VI=0, KP=0, K=0 muR2=153.3, muF2=153.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004346, x2=0.04978, x1p=1, x2p=1 Cluster sequence: pdfwgt=477.3, flux=1.805e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 699.117509245002 , PS = 1.41599809876139e-05 -> 0.00989949063901722 p_lab[0]=Vec4D(199.128423899616,0,0,-199.128423899616); p_lab[1]=Vec4D(17.3844640378266,0,0,17.3844640378266); p_lab[2]=Vec4D(197.116586964346,-4.93571295328055,-11.2793010699342,-196.73170807343); p_lab[3]=Vec4D(19.3963009730963,4.93571295328055,11.2793010699342,14.9877482116406); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01872, ta=151.7) * PDF(flb=G, xb=0.1362, tb=151.7) -> 0.5024 type=none, B=17.82, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01872, x2=0.1362, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.5024, flux=1.533e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.95359558864998 , PS = 9.81801895914713e-06 -> 8.79065712419016e-05 p_lab[0]=Vec4D(74.8616998394455,0,0,74.8616998394456); p_lab[1]=Vec4D(544.636905528997,0,0,-544.636905528997); p_lab[2]=Vec4D(75.2987392791533,12.043539273605,-2.55676685455171,74.2853703096815); p_lab[3]=Vec4D(544.19986608929,-12.043539273605,2.55676685455171,-544.060575999233); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.001445, ta=151.9) * PDF(flb=G, xb=0.7377, tb=151.9) -> 0 type=none, B=7.423, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7377, x2=0.001445, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.665e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3242, ta=151.6) * PDF(flb=G, xb=0.01737, tb=151.6) -> 0 type=none, B=39.45, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01737, x2=0.3242, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.936e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.09, \mu_f = 14.09. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.09 -> 'Alpha_QCD'{fac=1.398,cpl=0.118} \mu_F = 14.09 \mu_R = 14.09 } PDF(fla=G, xa=4.803e-05, ta=198.4) * PDF(flb=G, xb=0.209, tb=198.4) -> -15.65 type=none, B=0.02961, VI=0, KP=0, K=0 muR2=198.4, muF2=198.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=4.803e-05, x2=0.209, x1p=1, x2p=1 Cluster sequence: pdfwgt=-15.65, flux=0.0003892, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.463280157833393 , PS = 6.02927524635389e-05 -> -2.7932435877518e-05 p_lab[0]=Vec4D(0.192138868715426,0,0,0.192138868715469); p_lab[1]=Vec4D(835.848371773534,0,0,-835.848371773534); p_lab[2]=Vec4D(319.025829412357,7.89043935484373,-9.45118308842517,-318.788167812513); p_lab[3]=Vec4D(517.014681229978,-7.89043935484373,9.45118308842517,-516.868065092392); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.84, \mu_f = 12.84. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.84 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.84 \mu_R = 12.84 } PDF(fla=G, xa=0.0003424, ta=164.8) * PDF(flb=G, xb=0.08629, tb=164.8) -> 3002 type=none, B=0.1584, VI=0, KP=0, K=0 muR2=164.8, muF2=164.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003424, x2=0.08629, x1p=1, x2p=1 Cluster sequence: pdfwgt=3002, flux=0.0001322, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 475.531182707794 , PS = 1.73306476739202e-05 -> 0.00824126338547134 p_lab[0]=Vec4D(1.36977080445194,0,0,1.36977080445194); p_lab[1]=Vec4D(345.178941994531,0,0,-345.178941994531); p_lab[2]=Vec4D(31.5805525564067,-5.45844148192633,11.0358194789416,-29.081736619132); p_lab[3]=Vec4D(314.96816024258,5.45844148192633,-11.0358194789416,-314.727434570951); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.005912, ta=151.8) * PDF(flb=G, xb=0.3658, tb=151.8) -> 0 type=none, B=15.12, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3658, x2=0.005912, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.806e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.71, \mu_f = 12.71. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.71 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.71 \mu_R = 12.71 } PDF(fla=G, xa=0.006774, ta=161.4) * PDF(flb=G, xb=0.005725, tb=161.4) -> 2.237e+04 type=none, B=0.2221, VI=0, KP=0, K=0 muR2=161.4, muF2=161.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006774, x2=0.005725, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.237e+04, flux=0.0001007, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4966.57659796567 , PS = 1.64322682870142e-05 -> 0.0816121191257781 p_lab[0]=Vec4D(27.095386967546,0,0,27.095386967546); p_lab[1]=Vec4D(22.9018797020806,0,0,-22.9018797020806); p_lab[2]=Vec4D(23.1758792590249,-6.2474081449714,-10.6091369325476,-19.6351084653357); p_lab[3]=Vec4D(26.8213874106017,6.2474081449714,10.6091369325476,23.8286157308011); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03072, ta=151.8) * PDF(flb=G, xb=0.04972, tb=151.8) -> 10.9 type=none, B=10.66, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03072, x2=0.04972, x1p=1, x2p=1 Cluster sequence: pdfwgt=10.9, flux=2.557e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 116.159058399475 , PS = 1.06727044356108e-05 -> 0.00123973129781644 p_lab[0]=Vec4D(122.886409413372,0,0,122.886409413372); p_lab[1]=Vec4D(198.878385619383,0,0,-198.878385619383); p_lab[2]=Vec4D(198.760368676538,-1.48473738357396,-12.2220886056851,-198.378678948747); p_lab[3]=Vec4D(123.004426356217,1.48473738357396,12.2220886056851,122.386702742735); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.004209, ta=154.1) * PDF(flb=G, xb=0.03478, tb=154.1) -> 1237 type=none, B=0.9743, VI=0, KP=0, K=0 muR2=154.1, muF2=154.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03478, x2=0.004209, x1p=1, x2p=1 Cluster sequence: pdfwgt=1237, flux=2.668e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1205.66526529057 , PS = 1.4770884625096e-05 -> 0.0178087425300928 p_lab[0]=Vec4D(16.8346364404726,0,0,-16.8346364404726); p_lab[1]=Vec4D(139.134779319661,0,0,139.134779319661); p_lab[2]=Vec4D(137.122983048501,-12.3115362952309,-0.0998450530196272,136.569134818729); p_lab[3]=Vec4D(18.8464327116322,12.3115362952309,0.0998450530196272,-14.2689919395407); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.000337, ta=154.8) * PDF(flb=G, xb=0.3377, tb=154.8) -> 0 type=none, B=0.7459, VI=0, KP=0, K=0 muR2=154.8, muF2=154.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3377, x2=0.000337, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.433e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.59, \mu_f = 12.59. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.59 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.59 \mu_R = 12.59 } PDF(fla=G, xa=0.002928, ta=158.5) * PDF(flb=G, xb=0.0185, tb=158.5) -> 9733 type=none, B=0.3289, VI=0, KP=0, K=0 muR2=158.5, muF2=158.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0185, x2=0.002928, x1p=1, x2p=1 Cluster sequence: pdfwgt=9733, flux=7.213e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3201.30417536183 , PS = 1.57266433346231e-05 -> 0.0503457689715553 p_lab[0]=Vec4D(11.7120538776119,0,0,-11.7120538776119); p_lab[1]=Vec4D(73.9818347258374,0,0,73.9818347258374); p_lab[2]=Vec4D(71.1276013298088,10.560743865623,6.32886909235034,70.0539204894974); p_lab[3]=Vec4D(14.5662872736405,-10.560743865623,-6.32886909235034,-7.78413964127192); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1457, ta=151.8) * PDF(flb=G, xb=0.01249, tb=151.8) -> 0.3278 type=none, B=12.71, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1457, x2=0.01249, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3278, flux=2.147e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4.16651399935372 , PS = 1.03793720326174e-05 -> 4.32457988784008e-05 p_lab[0]=Vec4D(582.799136635614,0,0,582.799136635614); p_lab[1]=Vec4D(49.9570997706983,0,0,-49.9570997706982); p_lab[2]=Vec4D(582.104685300896,11.6332752668671,4.03122829280338,581.97446744189); p_lab[3]=Vec4D(50.6515511054163,-11.6332752668671,-4.03122829280338,-49.1324305769744); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.57, \mu_f = 12.57. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.57 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.57 \mu_R = 12.57 } PDF(fla=G, xa=0.06195, ta=157.9) * PDF(flb=G, xb=0.0009561, tb=157.9) -> 2002 type=none, B=0.3643, VI=0, KP=0, K=0 muR2=157.9, muF2=157.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06195, x2=0.0009561, x1p=1, x2p=1 Cluster sequence: pdfwgt=2002, flux=6.595e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 729.300542625799 , PS = 1.5585589521182e-05 -> 0.011366578894941 p_lab[0]=Vec4D(247.804887084995,0,0,247.804887084995); p_lab[1]=Vec4D(3.824582583402,0,0,-3.82458258340201); p_lab[2]=Vec4D(14.0049709925959,11.7665055565856,3.62398150798834,6.67497696775446); p_lab[3]=Vec4D(237.624498675801,-11.7665055565856,-3.62398150798834,237.305327533839); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1342, ta=151.7) * PDF(flb=G, xb=0.03076, tb=151.7) -> 0.1107 type=none, B=28.9, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1342, x2=0.03076, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1107, flux=9.462e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.20013372806066 , PS = 9.01853839428337e-06 -> 2.88605288933563e-05 p_lab[0]=Vec4D(536.883948529988,0,0,536.883948529988); p_lab[1]=Vec4D(123.025396473504,0,0,-123.025396473504); p_lab[2]=Vec4D(536.646363430311,-9.86921577584557,-7.3608746051812,536.50511226641); p_lab[3]=Vec4D(123.262981573181,9.86921577584557,7.3608746051812,-122.646560209926); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1041, ta=151.6) * PDF(flb=G, xb=0.1602, tb=151.6) -> 0.0002464 type=none, B=117, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1602, x2=0.1041, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0002464, flux=2.342e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0288154106577245 , PS = 6.71864527808913e-06 -> 1.9360052275172e-07 p_lab[0]=Vec4D(416.594576922184,0,0,-416.594576922185); p_lab[1]=Vec4D(640.694751985097,0,0,640.694751985097); p_lab[2]=Vec4D(640.662929641383,-0.430979671859377,12.3043956172518,640.544616339639); p_lab[3]=Vec4D(416.626399265899,0.430979671859377,-12.3043956172518,-416.444441276726); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.01318, ta=152.5) * PDF(flb=G, xb=0.0288, tb=152.5) -> 287.5 type=none, B=2.611, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0288, x2=0.01318, x1p=1, x2p=1 Cluster sequence: pdfwgt=287.5, flux=1.029e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 750.459903007652 , PS = 1.30876864585448e-05 -> 0.00982178391027407 p_lab[0]=Vec4D(52.7389688816855,0,0,-52.7389688816856); p_lab[1]=Vec4D(115.207970287902,0,0,115.207970287902); p_lab[2]=Vec4D(114.815887400584,-3.36434612073923,-11.8433555280278,114.153861540468); p_lab[3]=Vec4D(53.1310517690032,3.36434612073923,11.8433555280278,-51.6848601342511); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07335, ta=151.6) * PDF(flb=G, xb=0.1964, tb=151.6) -> -4.178e-06 type=none, B=101, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07335, x2=0.1964, x1p=1, x2p=1 Cluster sequence: pdfwgt=-4.178e-06, flux=2.711e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000421983395923995 , PS = 6.95963109536242e-06 -> -2.93684876399927e-09 p_lab[0]=Vec4D(293.4007224019,0,0,293.4007224019); p_lab[1]=Vec4D(785.63591077305,0,0,-785.63591077305); p_lab[2]=Vec4D(293.481660806467,11.9747253065932,2.86179118997825,293.223296030071); p_lab[3]=Vec4D(785.554972368483,-11.9747253065932,-2.86179118997825,-785.458484401222); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.92, \mu_f = 12.92. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.92 -> 'Alpha_QCD'{fac=1.424,cpl=0.118} \mu_F = 12.92 \mu_R = 12.92 } PDF(fla=G, xa=0.0007505, ta=166.9) * PDF(flb=G, xb=0.03441, tb=166.9) -> 1.796e+04 type=none, B=0.1329, VI=0, KP=0, K=0 muR2=166.9, muF2=166.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007505, x2=0.03441, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.796e+04, flux=0.0001513, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2386.37343382928 , PS = 1.79528490042568e-05 -> 0.0428422019253068 p_lab[0]=Vec4D(3.00195159860091,0,0,3.00195159860091); p_lab[1]=Vec4D(137.635840257457,0,0,-137.635840257457); p_lab[2]=Vec4D(123.882427924098,-12.3114730697908,-0.107358442687813,-123.269104212637); p_lab[3]=Vec4D(16.7553639319603,12.3114730697908,0.107358442687813,-11.3647844462196); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.01831, ta=152.3) * PDF(flb=G, xb=0.02952, tb=152.3) -> 141.3 type=none, B=3.738, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02952, x2=0.01831, x1p=1, x2p=1 Cluster sequence: pdfwgt=141.3, flux=7.226e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 528.270283578284 , PS = 1.24536721663598e-05 -> 0.00657890492691387 p_lab[0]=Vec4D(73.2560891054494,0,0,-73.2560891054494); p_lab[1]=Vec4D(118.061610521515,0,0,118.061610521515); p_lab[2]=Vec4D(73.4532804024351,-11.5467487236577,-4.27276127300721,-72.4140905272956); p_lab[3]=Vec4D(117.864419224529,11.5467487236577,4.27276127300721,117.219611943361); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.68, \mu_f = 12.68. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.68 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.68 \mu_R = 12.68 } PDF(fla=G, xa=0.005436, ta=160.8) * PDF(flb=G, xb=0.00757, tb=160.8) -> 2.013e+04 type=none, B=0.2385, VI=0, KP=0, K=0 muR2=160.8, muF2=160.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00757, x2=0.005436, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.013e+04, flux=9.493e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4800.8807187355 , PS = 1.62817013595017e-05 -> 0.0781665061250411 p_lab[0]=Vec4D(21.7427008349344,0,0,-21.7427008349344); p_lab[1]=Vec4D(30.2805472517946,0,0,30.2805472517946); p_lab[2]=Vec4D(29.7570114751298,-6.52475665661152,-10.4408546372126,27.0905119358717); p_lab[3]=Vec4D(22.2662366115991,6.52475665661152,10.4408546372126,-18.5526655190115); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.0008711, ta=156.7) * PDF(flb=G, xb=0.08257, tb=156.7) -> 789.7 type=none, B=0.4529, VI=0, KP=0, K=0 muR2=156.7, muF2=156.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08257, x2=0.0008711, x1p=1, x2p=1 Cluster sequence: pdfwgt=789.7, flux=5.431e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 357.682209097902 , PS = 1.53301964496975e-05 -> 0.00548333853203261 p_lab[0]=Vec4D(3.48441743119269,0,0,-3.48441743119267); p_lab[1]=Vec4D(330.277282130602,0,0,330.277282130602); p_lab[2]=Vec4D(319.136367530514,-8.02232385222801,-9.33949757713841,318.898788310003); p_lab[3]=Vec4D(14.6253320312794,8.02232385222801,9.33949757713841,7.89407638940535); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.004312, ta=151.8) * PDF(flb=G, xb=0.3514, tb=151.8) -> 0 type=none, B=10.57, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3514, x2=0.004312, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.578e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01124, ta=151.8) * PDF(flb=G, xb=0.1432, tb=151.8) -> 0.4829 type=none, B=11.24, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1432, x2=0.01124, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.4829, flux=2.427e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5.42609523573291 , PS = 1.05847509051181e-05 -> 5.7433866457681e-05 p_lab[0]=Vec4D(44.9623873160992,0,0,-44.9623873160992); p_lab[1]=Vec4D(572.801222201505,0,0,572.801222201505); p_lab[2]=Vec4D(572.023397803944,-1.72789532605496,-12.1900891188538,571.890884470268); p_lab[3]=Vec4D(45.7402117136609,1.72789532605496,12.1900891188538,-44.0520495848617); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1532, ta=151.6) * PDF(flb=G, xb=0.102, tb=151.6) -> 0.0009636 type=none, B=109.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.102, x2=0.1532, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0009636, flux=2.501e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.105536883954077 , PS = 6.82660398471669e-06 -> 7.20458512535488e-07 p_lab[0]=Vec4D(612.689553490477,0,0,-612.689553490477); p_lab[1]=Vec4D(407.937143972204,0,0,407.937143972203); p_lab[2]=Vec4D(612.658504017813,-12.1243698052395,2.14092312080519,-612.534781584165); p_lab[3]=Vec4D(407.968193444867,12.1243698052395,-2.14092312080519,407.782372065892); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.01851, ta=153.5) * PDF(flb=G, xb=0.01019, tb=153.5) -> 1276 type=none, B=1.27, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01851, x2=0.01019, x1p=1, x2p=1 Cluster sequence: pdfwgt=1276, flux=2.071e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1620.84929260962 , PS = 1.44387553872117e-05 -> 0.0234030464555255 p_lab[0]=Vec4D(74.0529670356739,0,0,74.0529670356739); p_lab[1]=Vec4D(40.7566087770758,0,0,-40.7566087770759); p_lab[2]=Vec4D(41.1800644794286,-7.89606234700295,9.44648582255025,-39.296486045784); p_lab[3]=Vec4D(73.6295113333211,7.89606234700295,-9.44648582255025,72.5928443043821); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.1, \mu_f = 13.1. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.1 -> 'Alpha_QCD'{fac=1.42,cpl=0.118} \mu_F = 13.1 \mu_R = 13.1 } PDF(fla=G, xa=0.01956, ta=171.5) * PDF(flb=G, xb=0.001042, tb=171.5) -> 3.971e+04 type=none, B=0.09605, VI=0, KP=0, K=0 muR2=171.5, muF2=171.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01956, x2=0.001042, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.971e+04, flux=0.0001916, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3814.18791523422 , PS = 1.95263854373523e-05 -> 0.0744773033633544 p_lab[0]=Vec4D(78.244008171758,0,0,78.2440081717581); p_lab[1]=Vec4D(4.16804014949117,0,0,-4.16804014949117); p_lab[2]=Vec4D(68.3019299106276,11.1353529948528,-5.25240979583885,67.1831060202853); p_lab[3]=Vec4D(14.1101184106216,-11.1353529948528,5.25240979583885,6.89286200198165); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06232, ta=151.6) * PDF(flb=G, xb=0.2815, tb=151.6) -> 0 type=none, B=123, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06232, x2=0.2815, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.227e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.34, \mu_f = 13.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.34 -> 'Alpha_QCD'{fac=1.414,cpl=0.118} \mu_F = 13.34 \mu_R = 13.34 } PDF(fla=G, xa=0.0008917, ta=178.1) * PDF(flb=G, xb=0.01787, tb=178.1) -> 6.04e+04 type=none, B=0.06656, VI=0, KP=0, K=0 muR2=178.1, muF2=178.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01787, x2=0.0008917, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.04e+04, flux=0.0002452, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4020.67543294791 , PS = 2.24360723348857e-05 -> 0.0902081648487171 p_lab[0]=Vec4D(3.56675296128696,0,0,-3.56675296128695); p_lab[1]=Vec4D(71.4727993053516,0,0,71.4727993053516); p_lab[2]=Vec4D(59.137492239389,-11.4576657619917,-4.50619465512586,57.841672636434); p_lab[3]=Vec4D(15.9020600272496,11.4576657619917,4.50619465512586,10.0643737076307); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.74, \mu_f = 13.74. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.74 -> 'Alpha_QCD'{fac=1.405,cpl=0.118} \mu_F = 13.74 \mu_R = 13.74 } PDF(fla=G, xa=5.269e-05, ta=188.9) * PDF(flb=G, xb=0.2277, tb=188.9) -> -5.057 type=none, B=0.04145, VI=0, KP=0, K=0 muR2=188.9, muF2=188.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=5.269e-05, x2=0.2277, x1p=1, x2p=1 Cluster sequence: pdfwgt=-5.057, flux=0.0003256, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.209608257031087 , PS = 3.11556155664062e-05 -> -6.53047427560501e-06 p_lab[0]=Vec4D(0.210767205870473,0,0,0.210767205870368); p_lab[1]=Vec4D(910.639466090613,0,0,-910.639466090613); p_lab[2]=Vec4D(246.708129005594,11.85588936225,-3.31990698868016,-246.400724476324); p_lab[3]=Vec4D(664.142104290859,-11.85588936225,3.31990698868016,-664.027974408388); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.86, \mu_f = 13.86. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.86 -> 'Alpha_QCD'{fac=1.402,cpl=0.118} \mu_F = 13.86 \mu_R = 13.86 } PDF(fla=G, xa=0.00024, ta=192.1) * PDF(flb=G, xb=0.04681, tb=192.1) -> 3.341e+04 type=none, B=0.03678, VI=0, KP=0, K=0 muR2=192.1, muF2=192.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04681, x2=0.00024, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.341e+04, flux=0.0003477, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1228.83170242105 , PS = 3.60751311476762e-05 -> 0.0443302648232616 p_lab[0]=Vec4D(0.96018110561077,0,0,-0.960181105610763); p_lab[1]=Vec4D(187.22691582998,0,0,187.22691582998); p_lab[2]=Vec4D(57.2148506309367,8.71070844148649,-8.70100301291848,55.8744596191945); p_lab[3]=Vec4D(130.972246304655,-8.71070844148649,8.70100301291848,130.392275105176); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01167, ta=151.7) * PDF(flb=G, xb=0.4308, tb=151.7) -> 0 type=none, B=35.21, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4308, x2=0.01167, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.771e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05286, ta=151.6) * PDF(flb=G, xb=0.2, tb=151.6) -> -9.294e-05 type=none, B=74.11, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05286, x2=0.2, x1p=1, x2p=1 Cluster sequence: pdfwgt=-9.294e-05, flux=3.694e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00688810536555782 , PS = 7.46828240352614e-06 -> -5.14423160952295e-08 p_lab[0]=Vec4D(211.432365735104,0,0,211.432365735104); p_lab[1]=Vec4D(800.135485492328,0,0,-800.135485492328); p_lab[2]=Vec4D(800.00358338795,-12.1474618919529,-2.00575785351897,-799.908838267572); p_lab[3]=Vec4D(211.564267839482,12.1474618919529,2.00575785351897,211.205718510348); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.5022, ta=152) * PDF(flb=G, xb=0.001867, tb=152) -> 0 type=none, B=6.523, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001867, x2=0.5022, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.166e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.55, \mu_f = 12.55. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.55 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.55 \mu_R = 12.55 } PDF(fla=G, xa=0.1904, ta=157.5) * PDF(flb=G, xb=0.0003325, tb=157.5) -> -1.419 type=none, B=0.3926, VI=0, KP=0, K=0 muR2=157.5, muF2=157.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1904, x2=0.0003325, x1p=1, x2p=1 Cluster sequence: pdfwgt=-1.419, flux=6.171e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.557251819692409 , PS = 1.54912604016677e-05 -> -8.63253304815828e-06 p_lab[0]=Vec4D(761.476260124112,0,0,761.476260124112); p_lab[1]=Vec4D(1.32995100147335,0,0,-1.32995100147354); p_lab[2]=Vec4D(30.9268243703324,11.5098687322644,-4.37113449226192,28.3704876702884); p_lab[3]=Vec4D(731.879386755261,-11.5098687322644,4.37113449226192,731.775821452358); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.001663, ta=154.5) * PDF(flb=G, xb=0.07552, tb=154.5) -> 442.8 type=none, B=0.8283, VI=0, KP=0, K=0 muR2=154.5, muF2=154.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07552, x2=0.001663, x1p=1, x2p=1 Cluster sequence: pdfwgt=442.8, flux=3.111e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 366.801236663521 , PS = 1.48563991025878e-05 -> 0.00544934556319602 p_lab[0]=Vec4D(6.65036436872399,0,0,-6.65036436872404); p_lab[1]=Vec4D(302.088677350428,0,0,302.088677350428); p_lab[2]=Vec4D(296.406508189838,1.78011255017381,12.1825733854598,296.150695090032); p_lab[3]=Vec4D(12.3325335293145,-1.78011255017381,-12.1825733854598,-0.712382108327489); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01745, ta=151.7) * PDF(flb=G, xb=0.2189, tb=151.7) -> -0.0002684 type=none, B=26.74, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2189, x2=0.01745, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0002684, flux=1.022e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00717910743647067 , PS = 9.14662207460603e-06 -> -6.5664582554391e-08 p_lab[0]=Vec4D(69.8062880473649,0,0,-69.8062880473649); p_lab[1]=Vec4D(875.674998706826,0,0,875.674998706826); p_lab[2]=Vec4D(70.3061952109677,-5.81301604954873,10.8532363556263,-69.219774559437); p_lab[3]=Vec4D(875.175091543223,5.81301604954873,-10.8532363556263,875.088485218898); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01118, ta=151.8) * PDF(flb=G, xb=0.1503, tb=151.8) -> 0.2758 type=none, B=11.73, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1503, x2=0.01118, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.2758, flux=2.325e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.23591217643787 , PS = 1.05126378862113e-05 -> 3.40179729424733e-05 p_lab[0]=Vec4D(44.723044523463,0,0,-44.7230445234628); p_lab[1]=Vec4D(601.182623010966,0,0,601.182623010966); p_lab[2]=Vec4D(600.397202323127,-12.2284279686972,-1.43158806847,600.270952705905); p_lab[3]=Vec4D(45.5084652113015,12.2284279686972,1.43158806847,-43.8113742184019); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.001136, ta=152.6) * PDF(flb=G, xb=0.3222, tb=152.6) -> 0 type=none, B=2.515, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3222, x2=0.001136, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.067e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.297, ta=151.6) * PDF(flb=G, xb=0.1569, tb=151.6) -> 0 type=none, B=326.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.297, x2=0.1569, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.384e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.08539, ta=151.6) * PDF(flb=G, xb=0.1852, tb=151.6) -> -2.681e-05 type=none, B=110.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1852, x2=0.08539, x1p=1, x2p=1 Cluster sequence: pdfwgt=-2.681e-05, flux=2.47e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00297346264700875 , PS = 6.80613344129978e-06 -> -2.0237783558262e-08 p_lab[0]=Vec4D(341.576934180757,0,0,-341.576934180757); p_lab[1]=Vec4D(740.891875700798,0,0,740.891875700798); p_lab[2]=Vec4D(740.832071690082,-0.592907193943324,-12.2976565264595,740.729758109956); p_lab[3]=Vec4D(341.636738191473,0.592907193943324,12.2976565264595,-341.414816589916); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03321, ta=151.6) * PDF(flb=G, xb=0.8949, tb=151.6) -> 0 type=none, B=208.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8949, x2=0.03321, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.314e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01095, ta=151.7) * PDF(flb=G, xb=0.415, tb=151.7) -> 0 type=none, B=31.83, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01095, x2=0.415, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.594e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.0008363, ta=153.8) * PDF(flb=G, xb=0.1958, tb=153.8) -> 0.008321 type=none, B=1.096, VI=0, KP=0, K=0 muR2=153.8, muF2=153.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0008363, x2=0.1958, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.008321, flux=2.385e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00912241161021041 , PS = 1.46573137800626e-05 -> 1.3371004940174e-07 p_lab[0]=Vec4D(3.34535581129566,0,0,3.34535581129544); p_lab[1]=Vec4D(783.398848220625,0,0,-783.398848220626); p_lab[2]=Vec4D(771.951289916237,-10.042402468635,7.12278370030668,-771.853101378986); p_lab[3]=Vec4D(14.79291411568,10.042402468635,-7.12278370030668,-8.20039103034032); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02911, ta=151.6) * PDF(flb=G, xb=0.2663, tb=151.6) -> 0 type=none, B=54.33, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02911, x2=0.2663, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.039e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.234, ta=151.7) * PDF(flb=G, xb=0.01361, tb=151.7) -> 0 type=none, B=22.29, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.234, x2=0.01361, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.226e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.004445, ta=151.9) * PDF(flb=G, xb=0.244, tb=151.9) -> 0 type=none, B=7.555, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.244, x2=0.004445, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.601e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1483, ta=151.7) * PDF(flb=G, xb=0.02117, tb=151.7) -> 0.09247 type=none, B=21.97, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1483, x2=0.02117, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.09247, flux=1.244e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2.03107990067261 , PS = 9.471876886033e-06 -> 1.92381387648671e-05 p_lab[0]=Vec4D(593.095216002062,0,0,593.095216002062); p_lab[1]=Vec4D(84.6853912868897,0,0,-84.6853912868897); p_lab[2]=Vec4D(85.0692771623442,-2.75940162464512,11.9987331688519,-84.1736183251044); p_lab[3]=Vec4D(592.711330126608,2.75940162464512,-11.9987331688519,592.583443040277); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.387, ta=151.6) * PDF(flb=G, xb=0.02214, tb=151.6) -> 0 type=none, B=60.06, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.387, x2=0.02214, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.558e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.002684, ta=153.5) * PDF(flb=G, xb=0.07068, tb=153.5) -> 328.8 type=none, B=1.278, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002684, x2=0.07068, x1p=1, x2p=1 Cluster sequence: pdfwgt=328.8, flux=2.06e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 420.118574444771 , PS = 1.44274853191813e-05 -> 0.00606125456511732 p_lab[0]=Vec4D(10.7341887149709,0,0,10.7341887149709); p_lab[1]=Vec4D(282.710909989927,0,0,-282.710909989927); p_lab[2]=Vec4D(279.271049443091,-8.22751161221725,9.15925475430348,-278.999525379636); p_lab[3]=Vec4D(14.1740492618063,8.22751161221725,-9.15925475430348,7.02280410468011); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.0005518, ta=152.3) * PDF(flb=G, xb=0.9418, tb=152.3) -> 0 type=none, B=3.592, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005518, x2=0.9418, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.517e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1602, ta=151.6) * PDF(flb=G, xb=0.106, tb=151.6) -> 0.0004781 type=none, B=119, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.106, x2=0.1602, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0004781, flux=2.301e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0569107709211851 , PS = 6.68959901511839e-06 -> 3.80710237103988e-07 p_lab[0]=Vec4D(640.742930167712,0,0,-640.742930167712); p_lab[1]=Vec4D(423.99212714856,0,0,423.99212714856); p_lab[2]=Vec4D(640.712690795961,2.06811209761569,12.1370015792656,-640.594386684755); p_lab[3]=Vec4D(424.02236652031,-2.06811209761569,-12.1370015792656,423.843583665603); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.5217, ta=152.2) * PDF(flb=G, xb=0.001147, tb=152.2) -> 0 type=none, B=4.144, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5217, x2=0.001147, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.528e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02361, ta=151.6) * PDF(flb=G, xb=0.7398, tb=151.6) -> 0 type=none, B=122.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02361, x2=0.7398, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.237e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.02127, ta=152.2) * PDF(flb=G, xb=0.02755, tb=152.2) -> 124 type=none, B=4.058, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02127, x2=0.02755, x1p=1, x2p=1 Cluster sequence: pdfwgt=124, flux=6.665e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 503.083617657117 , PS = 1.2311321829459e-05 -> 0.00619362432410529 p_lab[0]=Vec4D(85.0965474957814,0,0,85.0965474957813); p_lab[1]=Vec4D(110.191726380402,0,0,-110.191726380402); p_lab[2]=Vec4D(85.1983804479954,-8.48568215881042,-8.92059937913631,84.304093233828); p_lab[3]=Vec4D(110.089893428188,8.48568215881042,8.92059937913631,-109.399272118449); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7766, ta=151.6) * PDF(flb=G, xb=0.01744, tb=151.6) -> 0 type=none, B=94.94, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7766, x2=0.01744, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.884e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.1766, ta=152.3) * PDF(flb=G, xb=0.002801, tb=152.3) -> 0.07749 type=none, B=3.415, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1766, x2=0.002801, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.07749, flux=7.9e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.264622372921969 , PS = 1.26117198111211e-05 -> 3.33734322304587e-06 p_lab[0]=Vec4D(706.216112897241,0,0,706.216112897241); p_lab[1]=Vec4D(11.2022217931231,0,0,-11.202221793123); p_lab[2]=Vec4D(14.5475614711882,-6.87885814946121,10.2110335198251,-7.74904186171419); p_lab[3]=Vec4D(702.870773219175,6.87885814946121,-10.2110335198251,702.762932965832); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.004233, ta=154) * PDF(flb=G, xb=0.03637, tb=154) -> 1189 type=none, B=1.027, VI=0, KP=0, K=0 muR2=154, muF2=154, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004233, x2=0.03637, x1p=1, x2p=1 Cluster sequence: pdfwgt=1189, flux=2.537e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1220.91295882409 , PS = 1.4738722547027e-05 -> 0.017994697354178 p_lab[0]=Vec4D(16.9332323030836,0,0,16.9332323030836); p_lab[1]=Vec4D(145.460999707184,0,0,-145.460999707184); p_lab[2]=Vec4D(143.452161047149,-7.50507769113659,-9.7600053193328,-142.922841470892); p_lab[3]=Vec4D(18.9420709631186,7.50507769113659,9.7600053193328,14.3950740667918); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.83, \mu_f = 12.83. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.83 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.83 \mu_R = 12.83 } PDF(fla=G, xa=0.003315, ta=164.6) * PDF(flb=G, xb=0.009062, tb=164.6) -> 3.266e+04 type=none, B=0.1617, VI=0, KP=0, K=0 muR2=164.6, muF2=164.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003315, x2=0.009062, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.266e+04, flux=0.0001301, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5281.53833970767 , PS = 1.7264999676451e-05 -> 0.0911857577262166 p_lab[0]=Vec4D(13.2586392382803,0,0,13.2586392382803); p_lab[1]=Vec4D(36.2462236652855,0,0,-36.2462236652855); p_lab[2]=Vec4D(34.2623097239152,-4.45371674352281,-11.4781663235843,-31.9737700722653); p_lab[3]=Vec4D(15.2425531796507,4.45371674352281,11.4781663235843,8.98618564526014); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.6708, ta=151.7) * PDF(flb=G, xb=0.006388, tb=151.7) -> 0 type=none, B=30, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6708, x2=0.006388, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.116e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.2253, ta=151.8) * PDF(flb=G, xb=0.007701, tb=151.8) -> -0.0001231 type=none, B=12.12, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2253, x2=0.007701, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0001231, flux=2.252e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00149093818280125 , PS = 1.04592081518134e-05 -> -1.55940327954047e-08 p_lab[0]=Vec4D(901.116147297036,0,0,901.116147297036); p_lab[1]=Vec4D(30.8044103925779,0,0,-30.8044103925778); p_lab[2]=Vec4D(31.9941950370034,-8.94202538660083,-8.46310090739718,-29.5304016410616); p_lab[3]=Vec4D(899.926362652611,8.94202538660083,8.46310090739718,899.84213854552); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1616, ta=151.6) * PDF(flb=G, xb=0.1143, tb=151.6) -> 0.0002765 type=none, B=129.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1143, x2=0.1616, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0002765, flux=2.114e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0358239090745272 , PS = 6.55028448946199e-06 -> 2.34656795962772e-07 p_lab[0]=Vec4D(646.599538396928,0,0,-646.599538396928); p_lab[1]=Vec4D(457.330047272174,0,0,457.330047272174); p_lab[2]=Vec4D(457.354305787954,1.82214001441914,-12.1763582713081,457.188557520634); p_lab[3]=Vec4D(646.575279881148,-1.82214001441914,12.1763582713081,-646.458048645387); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0558, ta=151.7) * PDF(flb=G, xb=0.08662, tb=151.7) -> 0.3054 type=none, B=33.85, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0558, x2=0.08662, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3054, flux=8.083e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 10.336161890287 , PS = 8.75812329350174e-06 -> 9.05253802167272e-05 p_lab[0]=Vec4D(223.185970100293,0,0,223.185970100293); p_lab[1]=Vec4D(346.470542404109,0,0,-346.470542404109); p_lab[2]=Vec4D(346.410094452386,0.812374661792651,-12.2851105974785,-346.191232765256); p_lab[3]=Vec4D(223.246418052016,-0.812374661792651,12.2851105974785,222.90666046144); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.7447, ta=155.3) * PDF(flb=G, xb=0.0001339, tb=155.3) -> 0 type=none, B=0.6471, VI=0, KP=0, K=0 muR2=155.3, muF2=155.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7447, x2=0.0001339, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.919e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.27, \mu_f = 13.27. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.27 -> 'Alpha_QCD'{fac=1.416,cpl=0.118} \mu_F = 13.27 \mu_R = 13.27 } PDF(fla=G, xa=5.605e-05, ta=176.2) * PDF(flb=G, xb=0.3029, tb=176.2) -> 0 type=none, B=0.07341, VI=0, KP=0, K=0 muR2=176.2, muF2=176.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=5.605e-05, x2=0.3029, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.0002301, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.1491, ta=152.5) * PDF(flb=G, xb=0.002514, tb=152.5) -> 3.446 type=none, B=2.577, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1491, x2=0.002514, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.446, flux=1.042e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.87861077243149 , PS = 1.31111573914456e-05 -> 0.000116408863254733 p_lab[0]=Vec4D(596.454076379778,0,0,596.454076379778); p_lab[1]=Vec4D(10.057005747454,0,0,-10.057005747454); p_lab[2]=Vec4D(592.72579060959,12.1773987138059,1.8151736964816,592.59790664394); p_lab[3]=Vec4D(13.7852915176417,-12.1773987138059,-1.8151736964816,-6.20083601161663); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.5784, ta=155.3) * PDF(flb=G, xb=0.000173, tb=155.3) -> 0 type=none, B=0.6496, VI=0, KP=0, K=0 muR2=155.3, muF2=155.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.000173, x2=0.5784, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.905e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.005064, ta=151.9) * PDF(flb=G, xb=0.2199, tb=151.9) -> -0.01656 type=none, B=7.756, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005064, x2=0.2199, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.01656, flux=3.508e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.128461049409894 , PS = 1.12061228636342e-05 -> -1.43955030287866e-06 p_lab[0]=Vec4D(20.2565732678278,0,0,20.2565732678281); p_lab[1]=Vec4D(879.456473300934,0,0,-879.456473300935); p_lab[2]=Vec4D(22.0881864564376,7.07352154836675,-10.0771616980275,18.33859552831); p_lab[3]=Vec4D(877.624860112324,-7.07352154836675,10.0771616980275,-877.538495561416); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0246, ta=151.6) * PDF(flb=G, xb=0.2682, tb=151.6) -> 0 type=none, B=46.23, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2682, x2=0.0246, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.919e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.63, \mu_f = 12.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.63 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.63 \mu_R = 12.63 } PDF(fla=G, xa=0.5394, ta=159.5) * PDF(flb=G, xb=8.841e-05, tb=159.5) -> 0 type=none, B=0.2838, VI=0, KP=0, K=0 muR2=159.5, muF2=159.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=8.841e-05, x2=0.5394, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.192e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.1189, ta=156.2) * PDF(flb=G, xb=0.0006685, tb=156.2) -> 269 type=none, B=0.5057, VI=0, KP=0, K=0 muR2=156.2, muF2=156.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0006685, x2=0.1189, x1p=1, x2p=1 Cluster sequence: pdfwgt=269, flux=4.915e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 136.034844759563 , PS = 1.52208505551585e-05 -> 0.00207056604237949 p_lab[0]=Vec4D(475.58914498711,0,0,-475.58914498711); p_lab[1]=Vec4D(2.67395427615781,0,0,2.67395427615781); p_lab[2]=Vec4D(461.049553701421,10.9040651510704,5.71710225241891,-460.885134359198); p_lab[3]=Vec4D(17.213545561847,-10.9040651510704,-5.71710225241891,-12.0300563517542); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.00733, ta=151.9) * PDF(flb=G, xb=0.1738, tb=151.9) -> 0.1976 type=none, B=8.88, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00733, x2=0.1738, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1976, flux=3.067e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.75493734826128 , PS = 1.09787008419162e-05 -> 1.92669321428662e-05 p_lab[0]=Vec4D(29.3192748439924,0,0,29.3192748439923); p_lab[1]=Vec4D(695.028144667759,0,0,-695.028144667759); p_lab[2]=Vec4D(693.787830490417,-9.80018032017616,7.45254055174694,-693.678578191381); p_lab[3]=Vec4D(30.5595890213339,9.80018032017616,-7.45254055174694,27.9697083676151); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.009512, ta=151.6) * PDF(flb=G, xb=0.6534, tb=151.6) -> 0 type=none, B=43.54, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6534, x2=0.009512, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.285e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04101, ta=151.6) * PDF(flb=G, xb=0.3834, tb=151.6) -> 0 type=none, B=110.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3834, x2=0.04101, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.484e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.4415, ta=155.8) * PDF(flb=G, xb=0.0001965, tb=155.8) -> 0 type=none, B=0.5567, VI=0, KP=0, K=0 muR2=155.8, muF2=155.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4415, x2=0.0001965, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.502e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7221, ta=151.6) * PDF(flb=G, xb=0.04525, tb=151.6) -> 0 type=none, B=229.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7221, x2=0.04525, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.195e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3434, ta=151.6) * PDF(flb=G, xb=0.144, tb=151.6) -> 0 type=none, B=346.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.144, x2=0.3434, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.897e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.009479, ta=151.7) * PDF(flb=G, xb=0.366, tb=151.7) -> 0 type=none, B=24.28, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.366, x2=0.009479, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.126e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0251, ta=151.8) * PDF(flb=G, xb=0.06107, tb=151.8) -> 9.472 type=none, B=10.7, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0251, x2=0.06107, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.472, flux=2.549e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 101.318794169801 , PS = 1.0667128661497e-05 -> 0.001080780613237 p_lab[0]=Vec4D(100.381265956691,0,0,100.381265956691); p_lab[1]=Vec4D(244.27602453409,0,0,-244.27602453409); p_lab[2]=Vec4D(100.603995221024,3.70317147783572,11.7418233673116,99.8477839486108); p_lab[3]=Vec4D(244.053295269757,-3.70317147783572,-11.7418233673116,-243.74254252601); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.62, \mu_f = 12.62. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.62 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.62 \mu_R = 12.62 } PDF(fla=G, xa=0.0001187, ta=159.3) * PDF(flb=G, xb=0.4104, tb=159.3) -> 0 type=none, B=0.2909, VI=0, KP=0, K=0 muR2=159.3, muF2=159.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4104, x2=0.0001187, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.021e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3914, ta=151.6) * PDF(flb=G, xb=0.08952, tb=151.6) -> 0 type=none, B=245.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3914, x2=0.08952, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.115e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01583, ta=151.6) * PDF(flb=G, xb=0.9312, tb=151.6) -> 0 type=none, B=103.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9312, x2=0.01583, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.65e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.16, ta=151.6) * PDF(flb=G, xb=0.2683, tb=151.6) -> 0 type=none, B=301.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2683, x2=0.16, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.098e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.98, \mu_f = 12.98. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.98 -> 'Alpha_QCD'{fac=1.423,cpl=0.118} \mu_F = 12.98 \mu_R = 12.98 } PDF(fla=G, xa=0.01393, ta=168.4) * PDF(flb=G, xb=0.0017, tb=168.4) -> 4.084e+04 type=none, B=0.1183, VI=0, KP=0, K=0 muR2=168.4, muF2=168.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0017, x2=0.01393, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.084e+04, flux=0.0001649, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4832.07429829467 , PS = 1.84423050410621e-05 -> 0.0891145881902266 p_lab[0]=Vec4D(55.7082940623699,0,0,-55.7082940623699); p_lab[1]=Vec4D(6.80197933054864,0,0,6.80197933054865); p_lab[2]=Vec4D(50.1959198701833,-8.91577353371425,-8.49075245658011,-48.662577784479); p_lab[3]=Vec4D(12.3143535227352,8.91577353371425,8.49075245658011,-0.243736947342263); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1322, ta=151.8) * PDF(flb=G, xb=0.0157, tb=151.8) -> 0.56 type=none, B=14.5, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1322, x2=0.0157, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.56, flux=1.882e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.12197937712565 , PS = 1.01597715019843e-05 -> 8.2517454615425e-05 p_lab[0]=Vec4D(528.60326107539,0,0,528.60326107539); p_lab[1]=Vec4D(62.8192877672972,0,0,-62.8192877672972); p_lab[2]=Vec4D(63.3514588144402,11.7834754196012,3.56841729889536,-62.1435711794415); p_lab[3]=Vec4D(528.071090028247,-11.7834754196012,-3.56841729889536,527.927544487535); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.127, ta=152.4) * PDF(flb=G, xb=0.003625, tb=152.4) -> 15.06 type=none, B=3.175, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003625, x2=0.127, x1p=1, x2p=1 Cluster sequence: pdfwgt=15.06, flux=8.487e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 47.829422328556 , PS = 1.27397319920737e-05 -> 0.000609334021801507 p_lab[0]=Vec4D(507.828447174513,0,0,-507.828447174513); p_lab[1]=Vec4D(14.500870041581,0,0,14.5008700415809); p_lab[2]=Vec4D(505.27651120828,-12.1897992132887,1.72993934087518,-505.126488004566); p_lab[3]=Vec4D(17.0528060078147,12.1897992132887,-1.72993934087518,11.7989108716339); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.003888, ta=152.5) * PDF(flb=G, xb=0.1026, tb=152.5) -> 42.42 type=none, B=2.746, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003888, x2=0.1026, x1p=1, x2p=1 Cluster sequence: pdfwgt=42.42, flux=9.788e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 116.491805611254 , PS = 1.29970782883863e-05 -> 0.00151405311748494 p_lab[0]=Vec4D(15.5522576387125,0,0,15.5522576387125); p_lab[1]=Vec4D(410.578275404895,0,0,-410.578275404895); p_lab[2]=Vec4D(17.9107259849817,-3.95754460045528,11.6585477534214,13.0080824999574); p_lab[3]=Vec4D(408.219807058626,3.95754460045528,-11.6585477534214,-408.03410026614); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.53, \mu_f = 12.53. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.53 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.53 \mu_R = 12.53 } PDF(fla=G, xa=0.000246, ta=156.9) * PDF(flb=G, xb=0.2818, tb=156.9) -> 0 type=none, B=0.4347, VI=0, KP=0, K=0 muR2=156.9, muF2=156.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.000246, x2=0.2818, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.635e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.7, \mu_f = 12.7. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.7 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.7 \mu_R = 12.7 } PDF(fla=G, xa=9.618e-05, ta=161.3) * PDF(flb=G, xb=0.4094, tb=161.3) -> 0 type=none, B=0.2262, VI=0, KP=0, K=0 muR2=161.3, muF2=161.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4094, x2=9.618e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.919e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.55, \mu_f = 12.55. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.55 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.55 \mu_R = 12.55 } PDF(fla=G, xa=0.0006973, ta=157.4) * PDF(flb=G, xb=0.09123, tb=157.4) -> 707.2 type=none, B=0.3949, VI=0, KP=0, K=0 muR2=157.4, muF2=157.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09123, x2=0.0006973, x1p=1, x2p=1 Cluster sequence: pdfwgt=707.2, flux=6.14e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 279.278896444549 , PS = 1.54843927317247e-05 -> 0.00432446411423007 p_lab[0]=Vec4D(2.78926303102363,0,0,-2.78926303102365); p_lab[1]=Vec4D(364.919510215587,0,0,364.919510215587); p_lab[2]=Vec4D(350.893747044653,-4.20082822650913,11.5731126839224,350.67768366415); p_lab[3]=Vec4D(16.8150262019563,4.20082822650913,-11.5731126839224,11.4525635204123); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.45, \mu_f = 12.45. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.45 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.45 \mu_R = 12.45 } PDF(fla=G, xa=0.05345, ta=155.1) * PDF(flb=G, xb=0.001956, tb=155.1) -> 1150 type=none, B=0.681, VI=0, KP=0, K=0 muR2=155.1, muF2=155.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05345, x2=0.001956, x1p=1, x2p=1 Cluster sequence: pdfwgt=1150, flux=3.737e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 783.017409057649 , PS = 1.49799288677099e-05 -> 0.0117295450898621 p_lab[0]=Vec4D(213.78383985053,0,0,213.78383985053); p_lab[1]=Vec4D(7.82291570824538,0,0,-7.82291570824537); p_lab[2]=Vec4D(12.6007122864265,-11.9387279053994,-3.008433310585,-2.68217358534099); p_lab[3]=Vec4D(209.006043272349,11.9387279053994,3.008433310585,208.643097727626); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.0003226, ta=153.6) * PDF(flb=G, xb=0.551, tb=153.6) -> 0 type=none, B=1.194, VI=0, KP=0, K=0 muR2=153.6, muF2=153.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.551, x2=0.0003226, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.197e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.004222, ta=153.3) * PDF(flb=G, xb=0.04902, tb=153.3) -> 522.8 type=none, B=1.399, VI=0, KP=0, K=0 muR2=153.3, muF2=153.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004222, x2=0.04902, x1p=1, x2p=1 Cluster sequence: pdfwgt=522.8, flux=1.887e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 731.407428560892 , PS = 1.42490358759568e-05 -> 0.0104218506895055 p_lab[0]=Vec4D(16.8893584813113,0,0,16.8893584813113); p_lab[1]=Vec4D(196.090468091597,0,0,-196.090468091597); p_lab[2]=Vec4D(194.015931485014,-9.26452725614282,-8.10878719067083,-193.624889347971); p_lab[3]=Vec4D(18.9638950878946,9.26452725614282,8.10878719067083,14.4237797376856); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.08, \mu_f = 13.08. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.08 -> 'Alpha_QCD'{fac=1.42,cpl=0.118} \mu_F = 13.08 \mu_R = 13.08 } PDF(fla=G, xa=0.000247, ta=171) * PDF(flb=G, xb=0.08444, tb=171) -> 4104 type=none, B=0.0992, VI=0, KP=0, K=0 muR2=171, muF2=171, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08444, x2=0.000247, x1p=1, x2p=1 Cluster sequence: pdfwgt=4104, flux=0.0001873, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 407.118285483103 , PS = 1.93384509129025e-05 -> 0.00787303697956002 p_lab[0]=Vec4D(0.987812134276408,0,0,-0.987812134276421); p_lab[1]=Vec4D(337.743345370843,0,0,337.743345370843); p_lab[2]=Vec4D(293.742915489156,-5.06805094655114,-11.2204614248507,293.48478070436); p_lab[3]=Vec4D(44.988242015966,5.06805094655114,11.2204614248507,43.2707525322096); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.001522, ta=152.6) * PDF(flb=G, xb=0.2303, tb=152.6) -> -0.04181 type=none, B=2.406, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001522, x2=0.2303, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.04181, flux=1.114e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.100579392865479 , PS = 1.32347272464164e-05 -> -1.33114083118478e-06 p_lab[0]=Vec4D(6.08846182397192,0,0,6.08846182397157); p_lab[1]=Vec4D(921.222168499189,0,0,-921.222168499189); p_lab[2]=Vec4D(914.996727032941,12.2975228900788,0.595672520256349,-914.913890257445); p_lab[3]=Vec4D(12.3139032902213,-12.2975228900788,-0.595672520256349,-0.219816417774368); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.2365, ta=153.1) * PDF(flb=G, xb=0.001042, tb=153.1) -> -0.02813 type=none, B=1.676, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001042, x2=0.2365, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.02813, flux=1.585e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0471514747002569 , PS = 1.39023834394446e-05 -> -6.55517881018243e-07 p_lab[0]=Vec4D(946.090826686256,0,0,-946.090826686256); p_lab[1]=Vec4D(4.16847038788045,0,0,4.16847038788039); p_lab[2]=Vec4D(936.951098522004,7.02711104045657,10.109579882888,-936.870202923866); p_lab[3]=Vec4D(13.3081985521316,-7.02711104045657,-10.109579882888,-5.05215337450849); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1984, ta=151.6) * PDF(flb=G, xb=0.2632, tb=151.6) -> 0 type=none, B=366.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2632, x2=0.1984, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.482e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.8429, ta=152.4) * PDF(flb=G, xb=0.0005132, tb=152.4) -> 0 type=none, B=2.981, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8429, x2=0.0005132, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.03e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06346, ta=151.6) * PDF(flb=G, xb=0.1251, tb=151.6) -> 0.03374 type=none, B=55.65, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06346, x2=0.1251, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.03374, flux=4.918e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.87776069653703 , PS = 7.93922226633047e-06 -> 1.4907959532787e-05 p_lab[0]=Vec4D(253.859324177567,0,0,253.859324177567); p_lab[1]=Vec4D(500.568586911271,0,0,-500.568586911271); p_lab[2]=Vec4D(500.49499138964,-11.7700510749805,-3.61244967795401,-500.343534495183); p_lab[3]=Vec4D(253.932919699197,11.7700510749805,3.61244967795401,253.634271761479); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.003974, ta=152.4) * PDF(flb=G, xb=0.1116, tb=152.4) -> 19.84 type=none, B=3.058, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1116, x2=0.003974, x1p=1, x2p=1 Cluster sequence: pdfwgt=19.84, flux=8.807e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 60.6677545636341 , PS = 1.28061542233497e-05 -> 0.000776920621326226 p_lab[0]=Vec4D(15.8956150261703,0,0,-15.8956150261704); p_lab[1]=Vec4D(446.441229071428,0,0,446.441229071428); p_lab[2]=Vec4D(18.2071932614836,-12.0499734847537,2.5262687901593,-13.4133512396274); p_lab[3]=Vec4D(444.129650836115,12.0499734847537,-2.5262687901593,443.958965284886); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04738, ta=151.6) * PDF(flb=G, xb=0.1584, tb=151.6) -> 0.01168 type=none, B=52.58, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04738, x2=0.1584, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01168, flux=5.206e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.614362567714943 , PS = 8.03267521475382e-06 -> 4.93497497055633e-06 p_lab[0]=Vec4D(189.516249346048,0,0,189.516249346048); p_lab[1]=Vec4D(633.52594578105,0,0,-633.525945781049); p_lab[2]=Vec4D(189.656437658914,11.6028759678976,-4.11790775236473,189.256388136533); p_lab[3]=Vec4D(633.385757468184,-11.6028759678976,4.11790775236473,-633.266084571535); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.004253, ta=151.7) * PDF(flb=G, xb=0.6033, tb=151.7) -> 0 type=none, B=17.94, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004253, x2=0.6033, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.523e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.49, \mu_f = 12.49. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.49 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.49 \mu_R = 12.49 } PDF(fla=G, xa=0.004439, ta=156.1) * PDF(flb=G, xb=0.01841, tb=156.1) -> 5381 type=none, B=0.5213, VI=0, KP=0, K=0 muR2=156.1, muF2=156.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004439, x2=0.01841, x1p=1, x2p=1 Cluster sequence: pdfwgt=5381, flux=4.781e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2805.27083879014 , PS = 1.5192817769684e-05 -> 0.0426199686483472 p_lab[0]=Vec4D(17.7565479738513,0,0,17.7565479738513); p_lab[1]=Vec4D(73.6284824549996,0,0,-73.6284824549996); p_lab[2]=Vec4D(19.4259324889717,8.18630041266853,-9.19610681413302,15.0260759376055); p_lab[3]=Vec4D(71.9590979398792,-8.18630041266853,9.19610681413302,-70.8980104187538); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2669, ta=151.6) * PDF(flb=G, xb=0.1709, tb=151.6) -> 0 type=none, B=320, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1709, x2=0.2669, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.562e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.9, \mu_f = 12.9. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.9 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.9 \mu_R = 12.9 } PDF(fla=G, xa=0.06702, ta=166.4) * PDF(flb=G, xb=0.0003967, tb=166.4) -> 6180 type=none, B=0.1381, VI=0, KP=0, K=0 muR2=166.4, muF2=166.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003967, x2=0.06702, x1p=1, x2p=1 Cluster sequence: pdfwgt=6180, flux=0.0001469, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 853.372000793991 , PS = 1.78050594815669e-05 -> 0.0151943392340408 p_lab[0]=Vec4D(268.092118650021,0,0,-268.092118650021); p_lab[1]=Vec4D(1.58682095964261,0,0,1.58682095964254); p_lab[2]=Vec4D(241.7475702054,-8.06108888968722,9.30605936451954,-241.43384975026); p_lab[3]=Vec4D(27.9313694042649,8.06108888968722,-9.30605936451954,-25.0714479401191); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04218, ta=151.6) * PDF(flb=G, xb=0.908, tb=151.6) -> 0 type=none, B=268.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04218, x2=0.908, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.02e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.02583, ta=152.5) * PDF(flb=G, xb=0.01472, tb=152.5) -> 313.1 type=none, B=2.614, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01472, x2=0.02583, x1p=1, x2p=1 Cluster sequence: pdfwgt=313.1, flux=1.027e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 818.256824874429 , PS = 1.30856280346133e-05 -> 0.0107074044470905 p_lab[0]=Vec4D(103.333312799948,0,0,-103.333312799948); p_lab[1]=Vec4D(58.8657349157227,0,0,58.8657349157227); p_lab[2]=Vec4D(103.054530671052,12.3092581868523,0.257017261695907,-102.316432682377); p_lab[3]=Vec4D(59.1445170446181,-12.3092581868523,-0.257017261695907,57.8488547981524); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1852, ta=151.6) * PDF(flb=G, xb=0.1319, tb=151.6) -> -3.033e-06 type=none, B=171.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1852, x2=0.1319, x1p=1, x2p=1 Cluster sequence: pdfwgt=-3.033e-06, flux=1.599e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000519489011001197 , PS = 6.09233938390099e-06 -> -3.16490336122636e-09 p_lab[0]=Vec4D(740.845269515484,0,0,740.845269515484); p_lab[1]=Vec4D(527.488237772902,0,0,-527.488237772901); p_lab[2]=Vec4D(527.508929743882,8.05648690256825,9.31004370409435,-527.365231186654); p_lab[3]=Vec4D(740.824577544504,-8.05648690256825,-9.31004370409435,740.722262929236); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02527, ta=151.6) * PDF(flb=G, xb=0.7967, tb=151.6) -> 0 type=none, B=141.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7967, x2=0.02527, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.94e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0004267, ta=152.5) * PDF(flb=G, xb=0.9497, tb=152.5) -> 0 type=none, B=2.789, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004267, x2=0.9497, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.639e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.9151, ta=151.6) * PDF(flb=G, xb=0.006707, tb=151.6) -> 0 type=none, B=43, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9151, x2=0.006707, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.364e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2189, ta=151.6) * PDF(flb=G, xb=0.2154, tb=151.6) -> 1.925e-09 type=none, B=330.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2154, x2=0.2189, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.925e-09, flux=8.284e-08, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6.36501322687102e-07 , PS = 5.01229213808153e-06 -> 3.19033057558305e-12 p_lab[0]=Vec4D(875.742736754551,0,0,-875.742736754552); p_lab[1]=Vec4D(861.482016085192,0,0,861.482016085192); p_lab[2]=Vec4D(861.482732448941,-5.54161546934865,10.9942891072264,861.394749468971); p_lab[3]=Vec4D(875.742020390802,5.54161546934865,-10.9942891072264,-875.65547013833); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1427, ta=151.6) * PDF(flb=G, xb=0.2794, tb=151.6) -> 0 type=none, B=279.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1427, x2=0.2794, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.795e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.0291, ta=152.2) * PDF(flb=G, xb=0.02159, tb=152.2) -> 105.2 type=none, B=4.353, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02159, x2=0.0291, x1p=1, x2p=1 Cluster sequence: pdfwgt=105.2, flux=6.218e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 458.079015820532 , PS = 1.21895897698394e-05 -> 0.00558379528502406 p_lab[0]=Vec4D(116.385068165863,0,0,-116.385068165863); p_lab[1]=Vec4D(86.3687153455964,0,0,86.3687153455964); p_lab[2]=Vec4D(86.4823063362002,8.68250402527859,-8.72914765795732,85.6014334824188); p_lab[3]=Vec4D(116.271477175259,-8.68250402527859,8.72914765795732,-115.617786302685); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.00584, ta=156.4) * PDF(flb=G, xb=0.01311, tb=156.4) -> 6763 type=none, B=0.4851, VI=0, KP=0, K=0 muR2=156.4, muF2=156.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00584, x2=0.01311, x1p=1, x2p=1 Cluster sequence: pdfwgt=6763, flux=5.104e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3280.95578838376 , PS = 1.52606722334678e-05 -> 0.0500695908990234 p_lab[0]=Vec4D(23.3601398453602,0,0,23.3601398453602); p_lab[1]=Vec4D(52.420125355923,0,0,-52.420125355923); p_lab[2]=Vec4D(51.4911038908183,12.2284493773192,1.4314051871301,-49.9974987865557); p_lab[3]=Vec4D(24.2891613104649,-12.2284493773192,-1.4314051871301,20.937513275993); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.006423, ta=160.5) * PDF(flb=G, xb=0.006636, tb=160.5) -> 1.919e+04 type=none, B=0.2487, VI=0, KP=0, K=0 muR2=160.5, muF2=160.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006423, x2=0.006636, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.919e+04, flux=9.165e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4772.54759164816 , PS = 1.61983427664536e-05 -> 0.0773073617587297 p_lab[0]=Vec4D(25.6900861266727,0,0,25.6900861266727); p_lab[1]=Vec4D(26.5435454493859,0,0,-26.543545449386); p_lab[2]=Vec4D(25.7404930695835,-3.56255916822049,-11.7852478614719,22.6050677610548); p_lab[3]=Vec4D(26.4931385064751,3.56255916822049,11.7852478614719,-23.458527083768); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.92, \mu_f = 12.92. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.92 -> 'Alpha_QCD'{fac=1.424,cpl=0.118} \mu_F = 12.92 \mu_R = 12.92 } PDF(fla=G, xa=0.01409, ta=166.8) * PDF(flb=G, xb=0.00184, tb=166.8) -> 3.415e+04 type=none, B=0.1336, VI=0, KP=0, K=0 muR2=166.8, muF2=166.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01409, x2=0.00184, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.415e+04, flux=0.0001506, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4564.01197907297 , PS = 1.79303491142767e-05 -> 0.0818343281465193 p_lab[0]=Vec4D(56.3793743062745,0,0,56.3793743062745); p_lab[1]=Vec4D(7.36039624200629,0,0,-7.3603962420063); p_lab[2]=Vec4D(12.3434168924342,11.0607511043791,-5.4077425965348,-0.880934502122653); p_lab[3]=Vec4D(51.3963536558466,-11.0607511043791,5.4077425965348,49.8999125663908); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.3626, ta=152.1) * PDF(flb=G, xb=0.001814, tb=152.1) -> 0 type=none, B=4.559, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001814, x2=0.3626, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.94e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.1356, ta=152.9) * PDF(flb=G, xb=0.001995, tb=152.9) -> 13.46 type=none, B=1.845, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1356, x2=0.001995, x1p=1, x2p=1 Cluster sequence: pdfwgt=13.46, flux=1.444e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 24.8436264619124 , PS = 1.37217133463471e-05 -> 0.000340897120794085 p_lab[0]=Vec4D(542.473457803898,0,0,542.473457803898); p_lab[1]=Vec4D(7.98146063217714,0,0,-7.98146063217699); p_lab[2]=Vec4D(537.753637443977,5.74328325383498,-10.8902980881893,537.612677202877); p_lab[3]=Vec4D(12.7012809920989,-5.74328325383498,10.8902980881893,-3.12068003115532); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.006352, ta=151.8) * PDF(flb=G, xb=0.3114, tb=151.8) -> 0 type=none, B=13.82, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006352, x2=0.3114, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.975e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.63, \mu_f = 12.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.63 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.63 \mu_R = 12.63 } PDF(fla=G, xa=0.09762, ta=159.4) * PDF(flb=G, xb=0.000492, tb=159.4) -> 841.7 type=none, B=0.2862, VI=0, KP=0, K=0 muR2=159.4, muF2=159.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09762, x2=0.000492, x1p=1, x2p=1 Cluster sequence: pdfwgt=841.7, flux=8.133e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 240.925518074967 , PS = 1.59437417163051e-05 -> 0.00384125423305426 p_lab[0]=Vec4D(390.485875010298,0,0,390.485875010298); p_lab[1]=Vec4D(1.96794374786504,0,0,-1.96794374786505); p_lab[2]=Vec4D(370.274899493042,-8.94332752054686,-8.46172487402124,370.070151862588); p_lab[3]=Vec4D(22.1789192651197,8.94332752054686,8.46172487402124,18.4477793998437); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1157, ta=151.6) * PDF(flb=G, xb=0.319, tb=151.6) -> 0 type=none, B=258.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.319, x2=0.1157, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.058e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3348, ta=151.6) * PDF(flb=G, xb=0.1003, tb=151.6) -> 0 type=none, B=235.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1003, x2=0.3348, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.163e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.93, \mu_f = 13.93. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.93 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.93 \mu_R = 13.93 } PDF(fla=G, xa=0.006539, ta=194.1) * PDF(flb=G, xb=0.001655, tb=194.1) -> 1.655e+05 type=none, B=0.03427, VI=0, KP=0, K=0 muR2=194.1, muF2=194.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001655, x2=0.006539, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.655e+05, flux=0.000361, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5670.65820819201 , PS = 4.04954381915363e-05 -> 0.229635788975167 p_lab[0]=Vec4D(26.1559588099646,0,0,-26.1559588099646); p_lab[1]=Vec4D(6.6190285683578,0,0,6.6190285683578); p_lab[2]=Vec4D(12.9416274246945,-11.5783212063047,4.18645112559972,-3.98770929434483); p_lab[3]=Vec4D(19.8333599536279,11.5783212063047,-4.18645112559972,-15.549220947262); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0007591, ta=152.5) * PDF(flb=G, xb=0.5223, tb=152.5) -> 0 type=none, B=2.728, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007591, x2=0.5223, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.852e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05176, ta=151.6) * PDF(flb=G, xb=0.404, tb=151.6) -> 0 type=none, B=146.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05176, x2=0.404, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.868e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.002727, ta=152) * PDF(flb=G, xb=0.3071, tb=152) -> 0 type=none, B=5.821, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002727, x2=0.3071, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.664e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3554, ta=151.6) * PDF(flb=G, xb=0.1323, tb=151.6) -> 0 type=none, B=329.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1323, x2=0.3554, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.305e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.8902, ta=152) * PDF(flb=G, xb=0.0009591, tb=152) -> 0 type=none, B=5.935, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8902, x2=0.0009591, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.575e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.1025, ta=152.1) * PDF(flb=G, xb=0.006465, tb=152.1) -> 14.55 type=none, B=4.593, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1025, x2=0.006465, x1p=1, x2p=1 Cluster sequence: pdfwgt=14.55, flux=5.896e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 66.8381654287574 , PS = 1.20971090807475e-05 -> 0.000808548577948725 p_lab[0]=Vec4D(409.88279143763,0,0,409.88279143763); p_lab[1]=Vec4D(25.8600728379966,0,0,-25.8600728379966); p_lab[2]=Vec4D(408.504878890787,-10.354813899278,-6.6604597510021,408.319301751207); p_lab[3]=Vec4D(27.2379853848395,10.354813899278,6.6604597510021,-24.2965831515736); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.64, \mu_f = 12.64. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.64 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.64 \mu_R = 12.64 } PDF(fla=G, xa=0.0001578, ta=159.8) * PDF(flb=G, xb=0.293, tb=159.8) -> 0 type=none, B=0.2737, VI=0, KP=0, K=0 muR2=159.8, muF2=159.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001578, x2=0.293, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.45e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05709, ta=151.6) * PDF(flb=G, xb=0.7571, tb=151.6) -> 0 type=none, B=303.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7571, x2=0.05709, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.038e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03673, ta=151.7) * PDF(flb=G, xb=0.1462, tb=151.7) -> 0.0294 type=none, B=37.61, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1462, x2=0.03673, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0294, flux=7.275e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.10592035609016 , PS = 8.58435635589615e-06 -> 9.49361443791747e-06 p_lab[0]=Vec4D(146.922159072524,0,0,-146.922159072524); p_lab[1]=Vec4D(584.749544396564,0,0,584.749544396564); p_lab[2]=Vec4D(147.115369469573,-12.2115175218742,-1.56931029320564,-146.599277075931); p_lab[3]=Vec4D(584.556333999516,12.2115175218742,1.56931029320564,584.426662399971); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.00831, ta=151.7) * PDF(flb=G, xb=0.3269, tb=151.7) -> 0 type=none, B=19, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3269, x2=0.00831, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.438e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04821, ta=151.6) * PDF(flb=G, xb=0.7609, tb=151.6) -> 0 type=none, B=257.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04821, x2=0.7609, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.065e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.24, \mu_f = 13.24. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.24 -> 'Alpha_QCD'{fac=1.416,cpl=0.118} \mu_F = 13.24 \mu_R = 13.24 } PDF(fla=G, xa=0.0002182, ta=175.2) * PDF(flb=G, xb=0.08037, tb=175.2) -> 5934 type=none, B=0.07712, VI=0, KP=0, K=0 muR2=175.2, muF2=175.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08037, x2=0.0002182, x1p=1, x2p=1 Cluster sequence: pdfwgt=5934, flux=0.0002227, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 457.625169622833 , PS = 2.10652250424497e-05 -> 0.00963997718319422 p_lab[0]=Vec4D(0.872993028417693,0,0,-0.872993028417694); p_lab[1]=Vec4D(321.46574660352,0,0,321.46574660352); p_lab[2]=Vec4D(52.4678055668016,-12.1047081446993,-2.24943008672229,51.0028109618704); p_lab[3]=Vec4D(269.870934065138,12.1047081446993,2.24943008672229,269.589942613234); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02388, ta=151.6) * PDF(flb=G, xb=0.3618, tb=151.6) -> 0 type=none, B=60.54, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02388, x2=0.3618, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.522e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.007611, ta=156.2) * PDF(flb=G, xb=0.01057, tb=156.2) -> 6448 type=none, B=0.5123, VI=0, KP=0, K=0 muR2=156.2, muF2=156.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007611, x2=0.01057, x1p=1, x2p=1 Cluster sequence: pdfwgt=6448, flux=4.857e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3303.57131640001 , PS = 1.52087663584704e-05 -> 0.0502432442996721 p_lab[0]=Vec4D(30.4450136679277,0,0,30.4450136679277); p_lab[1]=Vec4D(42.2670290973765,0,0,-42.2670290973765); p_lab[2]=Vec4D(41.9079737164991,-12.1696194121131,1.86661681866455,-40.0586365973604); p_lab[3]=Vec4D(30.8040690488051,12.1696194121131,-1.86661681866455,28.2366211679115); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01798, ta=151.6) * PDF(flb=G, xb=0.5142, tb=151.6) -> 0 type=none, B=64.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5142, x2=0.01798, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.225e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.001066, ta=152) * PDF(flb=G, xb=0.8508, tb=152) -> 0 type=none, B=6.308, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8508, x2=0.001066, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.307e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.11, \mu_f = 14.11. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.11 -> 'Alpha_QCD'{fac=1.397,cpl=0.118} \mu_F = 14.11 \mu_R = 14.11 } PDF(fla=G, xa=0.00935, ta=199.1) * PDF(flb=G, xb=0.001062, tb=199.1) -> 1.673e+05 type=none, B=0.02896, VI=0, KP=0, K=0 muR2=199.1, muF2=199.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00935, x2=0.001062, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.673e+05, flux=0.0003935, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4844.25305754592 , PS = 6.69117514802686e-05 -> 0.324137456694044 p_lab[0]=Vec4D(37.3998223060598,0,0,37.3998223060598); p_lab[1]=Vec4D(4.24661516374086,0,0,-4.24661516374087); p_lab[2]=Vec4D(24.3621436161198,-4.30073465884019,11.5363588873462,21.0221346820213); p_lab[3]=Vec4D(17.2842938536809,4.30073465884019,-11.5363588873462,12.1310724602976); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.5476, ta=153.6) * PDF(flb=G, xb=0.0003342, tb=153.6) -> 0 type=none, B=1.231, VI=0, KP=0, K=0 muR2=153.6, muF2=153.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003342, x2=0.5476, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.135e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.76, \mu_f = 12.76. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.76 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.76 \mu_R = 12.76 } PDF(fla=G, xa=0.008156, ta=162.7) * PDF(flb=G, xb=0.004238, tb=162.7) -> 2.665e+04 type=none, B=0.1929, VI=0, KP=0, K=0 muR2=162.7, muF2=162.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004238, x2=0.008156, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.665e+04, flux=0.000113, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5140.07903378783 , PS = 1.67663609102903e-05 -> 0.0861804201879031 p_lab[0]=Vec4D(32.6254104503457,0,0,-32.6254104503457); p_lab[1]=Vec4D(16.9509188492651,0,0,16.9509188492651); p_lab[2]=Vec4D(31.4654947755355,11.2608335345818,-4.97770259154136,-28.9567516563211); p_lab[3]=Vec4D(18.1108345240752,-11.2608335345818,4.97770259154136,13.2822600552404); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.4082, ta=151.9) * PDF(flb=G, xb=0.002576, tb=151.9) -> 0 type=none, B=7.323, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002576, x2=0.4082, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.714e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.59, \mu_f = 12.59. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.59 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.59 \mu_R = 12.59 } PDF(fla=G, xa=0.007143, ta=158.4) * PDF(flb=G, xb=0.007677, tb=158.4) -> 1.256e+04 type=none, B=0.3337, VI=0, KP=0, K=0 muR2=158.4, muF2=158.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007143, x2=0.007677, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.256e+04, flux=7.123e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4190.18639253157 , PS = 1.57059339980516e-05 -> 0.0658107909206349 p_lab[0]=Vec4D(28.5736310740442,0,0,28.5736310740442); p_lab[1]=Vec4D(30.7065906497221,0,0,-30.7065906497222); p_lab[2]=Vec4D(30.6101004036518,11.0284585092256,5.47329863004839,-28.024888077176); p_lab[3]=Vec4D(28.6701213201146,-11.0284585092256,-5.47329863004839,25.891928501498); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.001596, ta=152.5) * PDF(flb=G, xb=0.2348, tb=152.5) -> 0 type=none, B=2.576, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2348, x2=0.001596, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.042e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1029, ta=151.7) * PDF(flb=G, xb=0.0417, tb=151.7) -> 0.2986 type=none, B=30.05, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1029, x2=0.0417, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.2986, flux=9.101e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.97393451951519 , PS = 8.9540899534817e-06 -> 8.03534169243936e-05 p_lab[0]=Vec4D(411.685479901914,0,0,411.685479901914); p_lab[1]=Vec4D(166.818365344997,0,0,-166.818365344997); p_lab[2]=Vec4D(166.953558270768,-11.4248666740912,-4.5887162107327,-166.498969138813); p_lab[3]=Vec4D(411.550286976143,11.4248666740912,4.5887162107327,411.36608369573); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1328, ta=151.6) * PDF(flb=G, xb=0.04993, tb=151.6) -> 0.03304 type=none, B=46.46, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1328, x2=0.04993, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.03304, flux=5.891e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.53517397225834 , PS = 8.23634915444684e-06 -> 1.26442288483388e-05 p_lab[0]=Vec4D(531.300461944975,0,0,531.300461944975); p_lab[1]=Vec4D(199.700172427893,0,0,-199.700172427892); p_lab[2]=Vec4D(199.818652289566,11.7034565778882,-3.82269526811715,-199.43898793324); p_lab[3]=Vec4D(531.181982083301,-11.7034565778882,3.82269526811715,531.039277450323); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.53, \mu_f = 12.53. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.53 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.53 \mu_R = 12.53 } PDF(fla=G, xa=0.3644, ta=157.1) * PDF(flb=G, xb=0.0001844, tb=157.1) -> 0 type=none, B=0.4198, VI=0, KP=0, K=0 muR2=157.1, muF2=157.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001844, x2=0.3644, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.814e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.89, \mu_f = 12.89. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.89 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.89 \mu_R = 12.89 } PDF(fla=G, xa=0.004257, ta=166.2) * PDF(flb=G, xb=0.00633, tb=166.2) -> 4.057e+04 type=none, B=0.1405, VI=0, KP=0, K=0 muR2=166.2, muF2=166.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004257, x2=0.00633, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.057e+04, flux=0.000145, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5701.52364738129 , PS = 1.77401515560304e-05 -> 0.101145893604835 p_lab[0]=Vec4D(17.0281123569244,0,0,17.0281123569244); p_lab[1]=Vec4D(25.318346292578,0,0,-25.318346292578); p_lab[2]=Vec4D(17.8354497308456,-11.9601293147071,2.92219125980581,12.9042385330604); p_lab[3]=Vec4D(24.5110089186568,11.9601293147071,-2.92219125980581,-21.1944724687139); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04009, ta=151.6) * PDF(flb=G, xb=0.6938, tb=151.6) -> 0 type=none, B=195.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6938, x2=0.04009, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.404e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03191, ta=151.6) * PDF(flb=G, xb=0.8166, tb=151.6) -> 0 type=none, B=182.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8166, x2=0.03191, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.499e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4857, ta=151.6) * PDF(flb=G, xb=0.04367, tb=151.6) -> 0 type=none, B=148.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4857, x2=0.04367, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.842e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.45, \mu_f = 12.45. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.45 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.45 \mu_R = 12.45 } PDF(fla=G, xa=0.01345, ta=155) * PDF(flb=G, xb=0.007932, tb=155) -> 3776 type=none, B=0.6963, VI=0, KP=0, K=0 muR2=155, muF2=155, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01345, x2=0.007932, x1p=1, x2p=1 Cluster sequence: pdfwgt=3776, flux=3.66e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2629.46309322675 , PS = 1.4964647211406e-05 -> 0.0393489875455505 p_lab[0]=Vec4D(53.8167509865275,0,0,53.8167509865275); p_lab[1]=Vec4D(31.7265039207464,0,0,-31.7265039207464); p_lab[2]=Vec4D(32.228188555922,-11.6483670859262,3.98741008863029,-29.7837580337449); p_lab[3]=Vec4D(53.3150663513519,11.6483670859262,-3.98741008863029,51.874005099526); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0362, ta=151.6) * PDF(flb=G, xb=0.3144, tb=151.6) -> 0 type=none, B=79.77, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3144, x2=0.0362, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.433e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.01116, ta=152.1) * PDF(flb=G, xb=0.05999, tb=152.1) -> 54.12 type=none, B=4.644, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01116, x2=0.05999, x1p=1, x2p=1 Cluster sequence: pdfwgt=54.12, flux=5.833e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 251.366162241606 , PS = 1.20781666463406e-05 -> 0.00303604239680522 p_lab[0]=Vec4D(44.6586464196719,0,0,44.6586464196719); p_lab[1]=Vec4D(239.945269909258,0,0,-239.945269909258); p_lab[2]=Vec4D(239.252176260556,8.38846097246081,9.01208175156564,-238.935179390623); p_lab[3]=Vec4D(45.3517400683734,-8.38846097246081,-9.01208175156564,43.6485559010365); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.0766, ta=152) * PDF(flb=G, xb=0.01232, tb=152) -> 19.55 type=none, B=6.565, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01232, x2=0.0766, x1p=1, x2p=1 Cluster sequence: pdfwgt=19.55, flux=4.14e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 128.339924699788 , PS = 1.14877686757568e-05 -> 0.0014743393668152 p_lab[0]=Vec4D(306.390083485765,0,0,-306.390083485765); p_lab[1]=Vec4D(49.2740462471256,0,0,49.2740462471256); p_lab[2]=Vec4D(305.743054736168,6.36193387918666,-10.5408582335718,-305.495059901825); p_lab[3]=Vec4D(49.921074996723,-6.36193387918666,10.5408582335718,48.3790226631858); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.3287, ta=151.9) * PDF(flb=G, xb=0.003305, tb=151.9) -> 0 type=none, B=7.568, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3287, x2=0.003305, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.595e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.06, \mu_f = 13.06. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.06 -> 'Alpha_QCD'{fac=1.421,cpl=0.118} \mu_F = 13.06 \mu_R = 13.06 } PDF(fla=G, xa=6.999e-05, ta=170.7) * PDF(flb=G, xb=0.3025, tb=170.7) -> 0 type=none, B=0.1014, VI=0, KP=0, K=0 muR2=170.7, muF2=170.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=6.999e-05, x2=0.3025, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.0001845, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.23, \mu_f = 13.23. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.23 -> 'Alpha_QCD'{fac=1.417,cpl=0.118} \mu_F = 13.23 \mu_R = 13.23 } PDF(fla=G, xa=0.09064, ta=175) * PDF(flb=G, xb=0.0001954, tb=175) -> 5270 type=none, B=0.07825, VI=0, KP=0, K=0 muR2=175, muF2=175, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001954, x2=0.09064, x1p=1, x2p=1 Cluster sequence: pdfwgt=5270, flux=0.0002205, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 412.389182366084 , PS = 2.09463067555269e-05 -> 0.00863803031650091 p_lab[0]=Vec4D(362.569843351258,0,0,-362.569843351258); p_lab[1]=Vec4D(0.781599989911034,0,0,0.781599989911129); p_lab[2]=Vec4D(305.041637095432,-11.6454639912926,3.99588080539306,-304.793071553272); p_lab[3]=Vec4D(58.3098062457391,11.6454639912926,-3.99588080539306,-56.9951718080772); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.3391, ta=154.8) * PDF(flb=G, xb=0.0003328, tb=154.8) -> 0 type=none, B=0.7393, VI=0, KP=0, K=0 muR2=154.8, muF2=154.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3391, x2=0.0003328, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.461e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.08637, ta=151.6) * PDF(flb=G, xb=0.1827, tb=151.6) -> 0.0001466 type=none, B=110.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08637, x2=0.1827, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0001466, flux=2.476e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0162148181829548 , PS = 6.81041350310611e-06 -> 1.10429616703606e-07 p_lab[0]=Vec4D(345.464006772221,0,0,345.464006772221); p_lab[1]=Vec4D(730.650159398405,0,0,-730.650159398405); p_lab[2]=Vec4D(345.52184522476,10.1883059823772,-6.91247540269454,345.302420542543); p_lab[3]=Vec4D(730.592320945866,-10.1883059823772,6.91247540269454,-730.488573168728); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0009575, ta=152.6) * PDF(flb=G, xb=0.3675, tb=152.6) -> 0 type=none, B=2.415, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0009575, x2=0.3675, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.11e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06429, ta=151.6) * PDF(flb=G, xb=0.6302, tb=151.6) -> 0 type=none, B=284.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06429, x2=0.6302, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.643e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.06464, ta=152.6) * PDF(flb=G, xb=0.005278, tb=152.6) -> 133.6 type=none, B=2.34, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06464, x2=0.005278, x1p=1, x2p=1 Cluster sequence: pdfwgt=133.6, flux=1.145e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 312.5610941756 , PS = 1.32851345247806e-05 -> 0.00415241618333547 p_lab[0]=Vec4D(258.552675953799,0,0,258.552675953799); p_lab[1]=Vec4D(21.1102450095935,0,0,-21.1102450095935); p_lab[2]=Vec4D(22.7704293706522,12.1558682164035,-1.95416552237304,-19.1548573145419); p_lab[3]=Vec4D(256.89249159274,-12.1558682164035,1.95416552237304,256.597288258748); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.7967, ta=151.7) * PDF(flb=G, xb=0.003929, tb=151.7) -> 0 type=none, B=21.9, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003929, x2=0.7967, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.248e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.7805, ta=152.2) * PDF(flb=G, xb=0.0007561, tb=152.2) -> 0 type=none, B=4.086, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007561, x2=0.7805, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.62e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.85, ta=151.8) * PDF(flb=G, xb=0.001971, tb=151.8) -> 0 type=none, B=11.7, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001971, x2=0.85, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.332e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2212, ta=151.6) * PDF(flb=G, xb=0.09364, tb=151.6) -> -1.157e-05 type=none, B=145.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09364, x2=0.2212, x1p=1, x2p=1 Cluster sequence: pdfwgt=-1.157e-05, flux=1.886e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00168028037795115 , PS = 6.36300721155542e-06 -> -1.06916361623382e-08 p_lab[0]=Vec4D(884.780407388275,0,0,-884.780407388275); p_lab[1]=Vec4D(374.574404027635,0,0,374.574404027635); p_lab[2]=Vec4D(884.722060901728,12.2254492990211,-1.45680623984954,-884.636389230749); p_lab[3]=Vec4D(374.632750514182,-12.2254492990211,1.45680623984954,374.430385870108); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0222, ta=151.7) * PDF(flb=G, xb=0.2326, tb=151.7) -> -0.0003117 type=none, B=36.17, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0222, x2=0.2326, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0003117, flux=7.565e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0112742522065121 , PS = 8.6488287171827e-06 -> -9.75090762484419e-08 p_lab[0]=Vec4D(88.7851882047997,0,0,88.7851882047998); p_lab[1]=Vec4D(930.567807625418,0,0,-930.567807625418); p_lab[2]=Vec4D(89.1714696239831,-2.3467258377078,12.086222438216,88.317422403043); p_lab[3]=Vec4D(930.181526206235,2.3467258377078,-12.086222438216,-930.100041823662); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.001928, ta=151.8) * PDF(flb=G, xb=0.8419, tb=151.8) -> 0 type=none, B=11.33, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001928, x2=0.8419, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.407e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.6304, ta=151.9) * PDF(flb=G, xb=0.001587, tb=151.9) -> 0 type=none, B=6.962, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001587, x2=0.6304, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.905e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01111, ta=151.6) * PDF(flb=G, xb=0.8874, tb=151.6) -> 0 type=none, B=69.11, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01111, x2=0.8874, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.962e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.02205, ta=152.2) * PDF(flb=G, xb=0.02739, tb=152.2) -> 114.4 type=none, B=4.183, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02739, x2=0.02205, x1p=1, x2p=1 Cluster sequence: pdfwgt=114.4, flux=6.468e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 478.404832466203 , PS = 1.22585759032815e-05 -> 0.00586456195128362 p_lab[0]=Vec4D(88.2018438511325,0,0,-88.2018438511325); p_lab[1]=Vec4D(109.558765729671,0,0,109.558765729671); p_lab[2]=Vec4D(88.2859291729293,-1.78013063961103,12.1825707422251,-87.423231437325); p_lab[3]=Vec4D(109.474680407874,1.78013063961103,-12.1825707422251,108.780153315864); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.494, ta=151.6) * PDF(flb=G, xb=0.03236, tb=151.6) -> 0 type=none, B=112.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.494, x2=0.03236, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.443e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7645, ta=151.6) * PDF(flb=G, xb=0.03321, tb=151.6) -> 0 type=none, B=178, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03321, x2=0.7645, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.539e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.02275, ta=151.9) * PDF(flb=G, xb=0.04401, tb=151.9) -> 31.9 type=none, B=6.969, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02275, x2=0.04401, x1p=1, x2p=1 Cluster sequence: pdfwgt=31.9, flux=3.902e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 222.293892084177 , PS = 1.13867607672089e-05 -> 0.00253120736917428 p_lab[0]=Vec4D(90.9906608961297,0,0,90.9906608961297); p_lab[1]=Vec4D(176.044066573677,0,0,-176.044066573677); p_lab[2]=Vec4D(175.842370390817,-7.07534312419778,10.0758828227738,-175.410818736125); p_lab[3]=Vec4D(91.1923570789895,7.07534312419778,-10.0758828227738,90.3574130585783); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.02528, ta=151.9) * PDF(flb=G, xb=0.04275, tb=151.9) -> 26.01 type=none, B=7.527, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04275, x2=0.02528, x1p=1, x2p=1 Cluster sequence: pdfwgt=26.01, flux=3.615e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 195.791685203016 , PS = 1.12567660165493e-05 -> 0.00220398118831623 p_lab[0]=Vec4D(101.12120474043,0,0,-101.12120474043); p_lab[1]=Vec4D(170.992440325132,0,0,170.992440325132); p_lab[2]=Vec4D(170.838968972592,-6.29055747738344,10.5836091012063,170.394745883301); p_lab[3]=Vec4D(101.27467609297,6.29055747738344,-10.5836091012063,-100.5235102986); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.0007068, ta=154.7) * PDF(flb=G, xb=0.1649, tb=154.7) -> 15.07 type=none, B=0.7651, VI=0, KP=0, K=0 muR2=154.7, muF2=154.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007068, x2=0.1649, x1p=1, x2p=1 Cluster sequence: pdfwgt=15.07, flux=3.352e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 11.5315605112842 , PS = 1.49035737222727e-05 -> 0.000171861462212772 p_lab[0]=Vec4D(2.82720418847712,0,0,2.82720418847677); p_lab[1]=Vec4D(659.51695261253,0,0,-659.51695261253); p_lab[2]=Vec4D(16.4566662618572,-4.66182566541175,-11.3952304254328,-10.919613979933); p_lab[3]=Vec4D(645.88749053915,4.66182566541175,11.3952304254328,-645.770134444121); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07432, ta=151.6) * PDF(flb=G, xb=0.1308, tb=151.6) -> 0.01431 type=none, B=68.14, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07432, x2=0.1308, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01431, flux=4.018e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.9752732456476 , PS = 7.60634762210207e-06 -> 7.4182673329314e-06 p_lab[0]=Vec4D(297.299852223543,0,0,297.299852223543); p_lab[1]=Vec4D(523.230690966309,0,0,-523.230690966309); p_lab[2]=Vec4D(523.175637265115,-12.0170147668828,-2.67866591345801,-523.03074817144); p_lab[3]=Vec4D(297.354905924737,12.0170147668828,2.67866591345801,297.099909428673); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02045, ta=151.6) * PDF(flb=G, xb=0.6655, tb=151.6) -> 0 type=none, B=95.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02045, x2=0.6655, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.871e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4779, ta=151.6) * PDF(flb=G, xb=0.01146, tb=151.6) -> 0 type=none, B=38.37, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01146, x2=0.4779, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.131e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1558, ta=151.6) * PDF(flb=G, xb=0.08946, tb=151.6) -> 0.0007408 type=none, B=97.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1558, x2=0.08946, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0007408, flux=2.803e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0723724427154264 , PS = 7.01418344890476e-06 -> 5.07633589851352e-07 p_lab[0]=Vec4D(623.098064011615,0,0,623.098064011615); p_lab[1]=Vec4D(357.859697379987,0,0,-357.859697379986); p_lab[2]=Vec4D(623.052978806373,-11.9368168373582,-3.01600709129852,622.931320856891); p_lab[3]=Vec4D(357.904782585228,11.9368168373582,3.01600709129852,-357.692954225263); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.9231, ta=151.6) * PDF(flb=G, xb=0.01146, tb=151.6) -> 0 type=none, B=74.16, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9231, x2=0.01146, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.692e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.62, \mu_f = 12.62. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.62 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.62 \mu_R = 12.62 } PDF(fla=G, xa=0.00715, ta=159.4) * PDF(flb=G, xb=0.006766, tb=159.4) -> 1.55e+04 type=none, B=0.2887, VI=0, KP=0, K=0 muR2=159.4, muF2=159.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00715, x2=0.006766, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.55e+04, flux=8.074e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4475.76904812853 , PS = 1.59295940223095e-05 -> 0.0712971838743062 p_lab[0]=Vec4D(28.6011847922531,0,0,28.6011847922531); p_lab[1]=Vec4D(27.0636341746821,0,0,-27.0636341746821); p_lab[2]=Vec4D(27.1430068951165,5.31596878200681,-11.1051506469804,-24.1900584605524); p_lab[3]=Vec4D(28.5218120718187,-5.31596878200681,11.1051506469804,25.7276090781234); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03219, ta=151.6) * PDF(flb=G, xb=0.7428, tb=151.6) -> 0 type=none, B=167.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03219, x2=0.7428, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.634e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.7245, ta=151.8) * PDF(flb=G, xb=0.002088, tb=151.8) -> 0 type=none, B=10.56, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002088, x2=0.7245, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.582e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.53, \mu_f = 12.53. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.53 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.53 \mu_R = 12.53 } PDF(fla=G, xa=0.1066, ta=157) * PDF(flb=G, xb=0.0006427, tb=157) -> 372.1 type=none, B=0.4289, VI=0, KP=0, K=0 muR2=157, muF2=157, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1066, x2=0.0006427, x1p=1, x2p=1 Cluster sequence: pdfwgt=372.1, flux=5.703e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 159.613653450686 , PS = 1.53888626531866e-05 -> 0.00245627259052592 p_lab[0]=Vec4D(426.294421948468,0,0,426.294421948468); p_lab[1]=Vec4D(2.57064288066697,0,0,-2.57064288066696); p_lab[2]=Vec4D(411.09636960549,-8.73572681817447,-8.67588450485758,410.911962843418); p_lab[3]=Vec4D(17.7686952236439,8.73572681817447,8.67588450485758,12.8118162243823); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.8074, ta=154.1) * PDF(flb=G, xb=0.00018, tb=154.1) -> 0 type=none, B=0.9669, VI=0, KP=0, K=0 muR2=154.1, muF2=154.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8074, x2=0.00018, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.688e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.5227, ta=152.1) * PDF(flb=G, xb=0.00133, tb=152.1) -> 0 type=none, B=4.824, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5227, x2=0.00133, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.618e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.33, \mu_f = 13.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.33 -> 'Alpha_QCD'{fac=1.414,cpl=0.118} \mu_F = 13.33 \mu_R = 13.33 } PDF(fla=G, xa=0.1495, ta=177.6) * PDF(flb=G, xb=0.0001081, tb=177.6) -> 576.1 type=none, B=0.06811, VI=0, KP=0, K=0 muR2=177.6, muF2=177.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001081, x2=0.1495, x1p=1, x2p=1 Cluster sequence: pdfwgt=576.1, flux=0.0002416, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 39.2384163645996 , PS = 2.219866716076e-05 -> 0.000871040544793065 p_lab[0]=Vec4D(598.094331326756,0,0,-598.094331326756); p_lab[1]=Vec4D(0.43257160349096,0,0,0.432571603490961); p_lab[2]=Vec4D(106.964567032527,11.6401687755261,4.0112798282677,-106.253633845966); p_lab[3]=Vec4D(491.56233589776,-11.6401687755261,-4.0112798282677,-491.408125877339); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1979, ta=151.6) * PDF(flb=G, xb=0.06788, tb=151.6) -> -2.221e-05 type=none, B=94.18, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06788, x2=0.1979, x1p=1, x2p=1 Cluster sequence: pdfwgt=-2.221e-05, flux=2.908e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00209187174994507 , PS = 7.07445929460016e-06 -> -1.47988615445104e-08 p_lab[0]=Vec4D(791.668603951949,0,0,-791.668603951949); p_lab[1]=Vec4D(271.519757587288,0,0,271.519757587288); p_lab[2]=Vec4D(791.576886403698,-10.0518329410949,7.10946900321819,-791.481132556924); p_lab[3]=Vec4D(271.611475135539,10.0518329410949,-7.10946900321819,271.332286192263); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4315, ta=151.6) * PDF(flb=G, xb=0.05904, tb=151.6) -> 0 type=none, B=178.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4315, x2=0.05904, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.533e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0029, ta=151.8) * PDF(flb=G, xb=0.6026, tb=151.8) -> 0 type=none, B=12.2, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0029, x2=0.6026, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.235e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03757, ta=151.6) * PDF(flb=G, xb=0.3788, tb=151.6) -> 0 type=none, B=99.76, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03757, x2=0.3788, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.745e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.176, ta=151.7) * PDF(flb=G, xb=0.01805, tb=151.7) -> 0.003736 type=none, B=22.24, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.176, x2=0.01805, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.003736, flux=1.229e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0830697420453748 , PS = 9.45167355989277e-06 -> 7.85148084517382e-07 p_lab[0]=Vec4D(704.105157960913,0,0,704.105157960913); p_lab[1]=Vec4D(72.2085860913107,0,0,-72.2085860913107); p_lab[2]=Vec4D(703.633815275481,12.3091326463405,0.262960982265796,703.526091985327); p_lab[3]=Vec4D(72.6799287767425,-12.3091326463405,-0.262960982265796,-71.6295201157244); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03079, ta=151.6) * PDF(flb=G, xb=0.945, tb=151.6) -> 0 type=none, B=204.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.945, x2=0.03079, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.342e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2827, ta=151.6) * PDF(flb=G, xb=0.03582, tb=151.6) -> 0 type=none, B=70.99, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03582, x2=0.2827, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.857e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.6666, ta=151.6) * PDF(flb=G, xb=0.01564, tb=151.6) -> 0 type=none, B=73.07, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01564, x2=0.6666, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.747e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.008647, ta=151.7) * PDF(flb=G, xb=0.2733, tb=151.7) -> 0 type=none, B=16.52, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008647, x2=0.2733, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.653e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03583, ta=151.9) * PDF(flb=G, xb=0.03221, tb=151.9) -> 23.88 type=none, B=8.043, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03221, x2=0.03583, x1p=1, x2p=1 Cluster sequence: pdfwgt=23.88, flux=3.384e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 192.05456050109 , PS = 1.11451622220321e-05 -> 0.00214047923226573 p_lab[0]=Vec4D(143.332801528723,0,0,-143.332801528723); p_lab[1]=Vec4D(128.841416150651,0,0,128.841416150651); p_lab[2]=Vec4D(143.303002929046,-12.2554582032418,-1.17798098965715,-142.773130362469); p_lab[3]=Vec4D(128.871214750329,12.2554582032418,1.17798098965715,128.281744984398); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02063, ta=151.6) * PDF(flb=G, xb=0.2931, tb=151.6) -> 0 type=none, B=42.37, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02063, x2=0.2931, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.459e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.3295, ta=151.9) * PDF(flb=G, xb=0.003327, tb=151.9) -> 0 type=none, B=7.636, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003327, x2=0.3295, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.563e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2289, ta=151.6) * PDF(flb=G, xb=0.1239, tb=151.6) -> 2.712e-09 type=none, B=198.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2289, x2=0.1239, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.712e-09, flux=1.378e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5.39251360869192e-07 , PS = 5.84735656753001e-06 -> 3.15319498652796e-12 p_lab[0]=Vec4D(915.536398300866,0,0,915.536398300866); p_lab[1]=Vec4D(495.508859635877,0,0,-495.508859635877); p_lab[2]=Vec4D(915.501308566509,-11.9122820997696,3.11149966397391,915.418517450902); p_lab[3]=Vec4D(495.543949370233,11.9122820997696,-3.11149966397391,-495.390978785913); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.006506, ta=152.2) * PDF(flb=G, xb=0.09722, tb=152.2) -> 23.55 type=none, B=4.383, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006506, x2=0.09722, x1p=1, x2p=1 Cluster sequence: pdfwgt=23.55, flux=6.176e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 103.224492176451 , PS = 1.21777284840568e-05 -> 0.00125703983862946 p_lab[0]=Vec4D(26.0235570492418,0,0,26.0235570492417); p_lab[1]=Vec4D(388.899098297318,0,0,-388.899098297318); p_lab[2]=Vec4D(27.3874572179642,-10.0257995345505,7.14613452688984,24.4640331483265); p_lab[3]=Vec4D(387.535198128596,10.0257995345505,-7.14613452688984,-387.339574396403); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.91, ta=151.6) * PDF(flb=G, xb=0.04397, tb=151.6) -> 0 type=none, B=280.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.91, x2=0.04397, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.763e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.34, \mu_f = 13.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.34 -> 'Alpha_QCD'{fac=1.414,cpl=0.118} \mu_F = 13.34 \mu_R = 13.34 } PDF(fla=G, xa=0.002558, ta=177.9) * PDF(flb=G, xb=0.006264, tb=177.9) -> 9.052e+04 type=none, B=0.06714, VI=0, KP=0, K=0 muR2=177.9, muF2=177.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006264, x2=0.002558, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.052e+04, flux=0.0002438, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6078.15325322747 , PS = 2.23452565705954e-05 -> 0.135817893918767 p_lab[0]=Vec4D(10.2315621512371,0,0,-10.2315621512371); p_lab[1]=Vec4D(25.0547538745774,0,0,25.0547538745775); p_lab[2]=Vec4D(22.381261862789,-8.73720260632614,-8.6743982845733,18.6905587821053); p_lab[3]=Vec4D(12.9050541630255,8.73720260632614,8.6743982845733,-3.86736705876495); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4315, ta=151.6) * PDF(flb=G, xb=0.06376, tb=151.6) -> 0 type=none, B=192.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4315, x2=0.06376, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.42e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.95, \mu_f = 12.95. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.95 -> 'Alpha_QCD'{fac=1.423,cpl=0.118} \mu_F = 12.95 \mu_R = 12.95 } PDF(fla=G, xa=0.004813, ta=167.8) * PDF(flb=G, xb=0.005089, tb=167.8) -> 4.756e+04 type=none, B=0.1238, VI=0, KP=0, K=0 muR2=167.8, muF2=167.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004813, x2=0.005089, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.756e+04, flux=0.0001595, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5889.73359702224 , PS = 1.82415563699124e-05 -> 0.107437907413848 p_lab[0]=Vec4D(19.2528498210319,0,0,19.2528498210319); p_lab[1]=Vec4D(20.3572851931201,0,0,-20.3572851931201); p_lab[2]=Vec4D(19.3726267558937,-0.80085110966297,12.285867184841,14.957097727827); p_lab[3]=Vec4D(20.2375082582583,0.80085110966297,-12.285867184841,-16.0615330999152); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.9341, ta=151.6) * PDF(flb=G, xb=0.02917, tb=151.6) -> 0 type=none, B=191.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02917, x2=0.9341, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.433e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.58, \mu_f = 12.58. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.58 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.58 \mu_R = 12.58 } PDF(fla=G, xa=0.001108, ta=158.3) * PDF(flb=G, xb=0.05043, tb=158.3) -> 3587 type=none, B=0.3408, VI=0, KP=0, K=0 muR2=158.3, muF2=158.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001108, x2=0.05043, x1p=1, x2p=1 Cluster sequence: pdfwgt=3587, flux=6.992e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1222.54273535896 , PS = 1.56758039637417e-05 -> 0.0191643402567836 p_lab[0]=Vec4D(4.43085501152291,0,0,4.43085501152289); p_lab[1]=Vec4D(201.737053000391,0,0,-201.737053000391); p_lab[2]=Vec4D(13.184076605494,-3.99037085905268,-11.6473531495625,-4.71550431620364); p_lab[3]=Vec4D(192.98383140642,3.99037085905268,11.6473531495625,-192.590693672665); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03688, ta=151.6) * PDF(flb=G, xb=0.4895, tb=151.6) -> 0 type=none, B=126.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4895, x2=0.03688, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.164e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.001075, ta=153.2) * PDF(flb=G, xb=0.2074, tb=153.2) -> -0.251 type=none, B=1.511, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001075, x2=0.2074, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.251, flux=1.752e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.379286845492627 , PS = 1.40995041132489e-05 -> -5.34775643812448e-06 p_lab[0]=Vec4D(4.30133346513311,0,0,4.30133346513313); p_lab[1]=Vec4D(829.565882072399,0,0,-829.565882072399); p_lab[2]=Vec4D(820.706164287438,12.2874452999874,0.7762621871631,-820.613809416108); p_lab[3]=Vec4D(13.1610512500925,-12.2874452999874,-0.7762621871631,-4.65073919115672); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03542, ta=151.8) * PDF(flb=G, xb=0.04246, tb=151.8) -> 11.83 type=none, B=10.49, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03542, x2=0.04246, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.83, flux=2.598e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 124.142163834616 , PS = 1.06989647194005e-05 -> 0.0013281926310566 p_lab[0]=Vec4D(141.672150068363,0,0,141.672150068363); p_lab[1]=Vec4D(169.830976911831,0,0,-169.830976911831); p_lab[2]=Vec4D(169.78655554798,-11.4552192420086,4.51241034270105,-169.339571718674); p_lab[3]=Vec4D(141.716571432213,11.4552192420086,-4.51241034270105,141.180744875207); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.001968, ta=151.8) * PDF(flb=G, xb=0.7693, tb=151.8) -> 0 type=none, B=10.57, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001968, x2=0.7693, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.58e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.08625, ta=152.5) * PDF(flb=G, xb=0.004743, tb=152.5) -> 64.82 type=none, B=2.816, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004743, x2=0.08625, x1p=1, x2p=1 Cluster sequence: pdfwgt=64.82, flux=9.549e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 182.55905622486 , PS = 1.29521215772484e-05 -> 0.00236452709125211 p_lab[0]=Vec4D(345.011651035733,0,0,-345.011651035733); p_lab[1]=Vec4D(18.9716797606322,0,0,18.9716797606322); p_lab[2]=Vec4D(20.8703997047703,10.8986801866014,5.72736110033083,16.8519936165865); p_lab[3]=Vec4D(343.112931091595,-10.8986801866014,-5.72736110033083,-342.891964891687); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03702, ta=151.9) * PDF(flb=G, xb=0.03519, tb=151.9) -> 17.4 type=none, B=9.086, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03519, x2=0.03702, x1p=1, x2p=1 Cluster sequence: pdfwgt=17.4, flux=2.998e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 158.091735649539 , PS = 1.09402468081671e-05 -> 0.00172956260633747 p_lab[0]=Vec4D(148.08550232553,0,0,-148.08550232553); p_lab[1]=Vec4D(140.779509697877,0,0,140.779509697877); p_lab[2]=Vec4D(148.072197416117,-7.53756819297172,-9.73493506499666,-147.559451586993); p_lab[3]=Vec4D(140.79281460729,7.53756819297172,9.73493506499666,140.25345895934); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02907, ta=151.7) * PDF(flb=G, xb=0.1593, tb=151.7) -> 0.04116 type=none, B=32.43, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02907, x2=0.1593, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.04116, flux=8.434e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.33476265130128 , PS = 8.8284912141246e-06 -> 1.1783940339955e-05 p_lab[0]=Vec4D(116.279838648815,0,0,116.279838648815); p_lab[1]=Vec4D(637.268125122096,0,0,-637.268125122096); p_lab[2]=Vec4D(637.001551799787,-10.3819610226875,-6.61806469496929,-636.882558326379); p_lab[3]=Vec4D(116.546411971125,10.3819610226875,6.61806469496929,115.894271853098); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0475, ta=151.8) * PDF(flb=G, xb=0.04152, tb=151.8) -> 5.568 type=none, B=13.78, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04152, x2=0.0475, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.568, flux=1.981e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 76.7131953404569 , PS = 1.02451114271283e-05 -> 0.000785935234194042 p_lab[0]=Vec4D(189.992771124389,0,0,-189.992771124389); p_lab[1]=Vec4D(166.064008897182,0,0,166.064008897182); p_lab[2]=Vec4D(166.092784424113,1.76085729061572,12.1853714176256,165.635832906927); p_lab[3]=Vec4D(189.963995597458,-1.76085729061572,-12.1853714176256,-189.564595134133); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.47, \mu_f = 12.47. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.47 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.47 \mu_R = 12.47 } PDF(fla=G, xa=0.01461, ta=155.6) * PDF(flb=G, xb=0.006306, tb=155.6) -> 4834 type=none, B=0.5943, VI=0, KP=0, K=0 muR2=155.6, muF2=155.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006306, x2=0.01461, x1p=1, x2p=1 Cluster sequence: pdfwgt=4834, flux=4.239e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2873.21507117393 , PS = 1.50812530525011e-05 -> 0.0433316835626339 p_lab[0]=Vec4D(58.4467221815337,0,0,-58.4467221815337); p_lab[1]=Vec4D(25.2250632154958,0,0,25.2250632154958); p_lab[2]=Vec4D(57.5696368490962,11.8210567704042,3.44187620554272,-56.2377025842399); p_lab[3]=Vec4D(26.1021485479333,-11.8210567704042,-3.44187620554272,23.0160436182019); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7173, ta=151.6) * PDF(flb=G, xb=0.04577, tb=151.6) -> 0 type=none, B=230.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7173, x2=0.04577, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.19e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.53, \mu_f = 12.53. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.53 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.53 \mu_R = 12.53 } PDF(fla=G, xa=0.09793, ta=156.9) * PDF(flb=G, xb=0.0007135, tb=156.9) -> 494.6 type=none, B=0.4386, VI=0, KP=0, K=0 muR2=156.9, muF2=156.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09793, x2=0.0007135, x1p=1, x2p=1 Cluster sequence: pdfwgt=494.6, flux=5.591e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 216.898487769148 , PS = 1.53645070330677e-05 -> 0.00333253834079082 p_lab[0]=Vec4D(391.700544285091,0,0,391.700544285091); p_lab[1]=Vec4D(2.85408568367815,0,0,-2.85408568367813); p_lab[2]=Vec4D(378.039554219472,11.7626920791285,-3.63634019791985,377.839014210382); p_lab[3]=Vec4D(16.5150757492974,-11.7626920791285,3.63634019791985,11.0074443910306); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.98, \mu_f = 13.98. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.98 -> 'Alpha_QCD'{fac=1.4,cpl=0.118} \mu_F = 13.98 \mu_R = 13.98 } PDF(fla=G, xa=0.00523, ta=195.5) * PDF(flb=G, xb=0.002016, tb=195.5) -> 1.76e+05 type=none, B=0.03262, VI=0, KP=0, K=0 muR2=195.5, muF2=195.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00523, x2=0.002016, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.76e+05, flux=0.0003704, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5742.52228391873 , PS = 4.48125164361572e-05 -> 0.257336874233107 p_lab[0]=Vec4D(20.9204725854794,0,0,20.9204725854794); p_lab[1]=Vec4D(8.06527290938148,0,0,-8.06527290938148); p_lab[2]=Vec4D(16.5418054288226,-12.2611173845377,-1.11753991695543,11.0475079480227); p_lab[3]=Vec4D(12.4439400660383,12.2611173845377,1.11753991695543,1.80769172807523); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0363, ta=151.6) * PDF(flb=G, xb=0.2933, tb=151.6) -> 0 type=none, B=74.62, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0363, x2=0.2933, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.669e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.0004983, ta=153.1) * PDF(flb=G, xb=0.4938, tb=153.1) -> 0 type=none, B=1.673, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004983, x2=0.4938, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.588e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.54, \mu_f = 12.54. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.54 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.54 \mu_R = 12.54 } PDF(fla=G, xa=0.02317, ta=157.3) * PDF(flb=G, xb=0.002824, tb=157.3) -> 6633 type=none, B=0.4076, VI=0, KP=0, K=0 muR2=157.3, muF2=157.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002824, x2=0.02317, x1p=1, x2p=1 Cluster sequence: pdfwgt=6633, flux=5.97e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2703.24943630927 , PS = 1.54469286790648e-05 -> 0.0417569012443914 p_lab[0]=Vec4D(92.6827670699199,0,0,-92.6827670699199); p_lab[1]=Vec4D(11.2956580586258,0,0,11.2956580586258); p_lab[2]=Vec4D(89.6215917306093,-5.11338243940887,11.1998756694771,-88.7718751032365); p_lab[3]=Vec4D(14.3568333979364,5.11338243940887,-11.1998756694771,7.38476609194233); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.05516, ta=152.3) * PDF(flb=G, xb=0.009202, tb=152.3) -> 100.1 type=none, B=3.507, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.009202, x2=0.05516, x1p=1, x2p=1 Cluster sequence: pdfwgt=100.1, flux=7.695e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 350.991647473557 , PS = 1.2565000592104e-05 -> 0.00441021025832882 p_lab[0]=Vec4D(220.654199212841,0,0,-220.654199212841); p_lab[1]=Vec4D(36.8079592358831,0,0,36.8079592358831); p_lab[2]=Vec4D(219.79234340973,-2.75043315375436,12.0007921592755,-219.447238138367); p_lab[3]=Vec4D(37.6698150389944,2.75043315375436,-12.0007921592755,35.6009981614091); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.86, \mu_f = 12.86. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.86 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.86 \mu_R = 12.86 } PDF(fla=G, xa=0.0003662, ta=165.4) * PDF(flb=G, xb=0.0772, tb=165.4) -> 3443 type=none, B=0.1496, VI=0, KP=0, K=0 muR2=165.4, muF2=165.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0772, x2=0.0003662, x1p=1, x2p=1 Cluster sequence: pdfwgt=3443, flux=0.0001382, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 514.999341162413 , PS = 1.7518997041135e-05 -> 0.00902227193401079 p_lab[0]=Vec4D(1.46474855417864,0,0,-1.46474855417859); p_lab[1]=Vec4D(308.80120798392,0,0,308.80120798392); p_lab[2]=Vec4D(29.8324102593118,3.31786846763917,-11.8564600035106,27.1733105619557); p_lab[3]=Vec4D(280.433546278786,-3.31786846763917,11.8564600035106,280.163148867785); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02367, ta=151.7) * PDF(flb=G, xb=0.1761, tb=151.7) -> 0.002018 type=none, B=29.19, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1761, x2=0.02367, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.002018, flux=9.369e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0589175622944436 , PS = 9.00215848740965e-06 -> 5.30385233466412e-07 p_lab[0]=Vec4D(94.6804761046343,0,0,-94.6804761046345); p_lab[1]=Vec4D(704.560274283758,0,0,704.560274283758); p_lab[2]=Vec4D(704.213612744895,10.7063353345595,6.07933209220905,704.105978159704); p_lab[3]=Vec4D(95.0271376434972,-10.7063353345595,-6.07933209220905,-94.2261799805806); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5886, ta=151.6) * PDF(flb=G, xb=0.0399, tb=151.6) -> 0 type=none, B=164.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5886, x2=0.0399, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.663e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03019, ta=151.6) * PDF(flb=G, xb=0.4036, tb=151.6) -> 0 type=none, B=85.43, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4036, x2=0.03019, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.205e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.63, \mu_f = 12.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.63 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.63 \mu_R = 12.63 } PDF(fla=G, xa=0.01089, ta=159.6) * PDF(flb=G, xb=0.004354, tb=159.6) -> 1.532e+04 type=none, B=0.282, VI=0, KP=0, K=0 muR2=159.6, muF2=159.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004354, x2=0.01089, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.532e+04, flux=8.239e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4320.33293917213 , PS = 1.59692413393197e-05 -> 0.0689924393718522 p_lab[0]=Vec4D(43.562294184164,0,0,-43.562294184164); p_lab[1]=Vec4D(17.4142128200753,0,0,17.4142128200753); p_lab[2]=Vec4D(42.1833480867906,3.73273479564921,11.7324586480733,-40.3466350620214); p_lab[3]=Vec4D(18.7931589174487,-3.73273479564921,-11.7324586480733,14.1985536979328); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.8533, ta=151.6) * PDF(flb=G, xb=0.04476, tb=151.6) -> 0 type=none, B=267.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8533, x2=0.04476, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.023e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0509, ta=151.6) * PDF(flb=G, xb=0.5417, tb=151.6) -> 0 type=none, B=193.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5417, x2=0.0509, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.417e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.97, \mu_f = 12.97. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.97 -> 'Alpha_QCD'{fac=1.423,cpl=0.118} \mu_F = 12.97 \mu_R = 12.97 } PDF(fla=G, xa=0.008496, ta=168.1) * PDF(flb=G, xb=0.002833, tb=168.1) -> 4.58e+04 type=none, B=0.1209, VI=0, KP=0, K=0 muR2=168.1, muF2=168.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008496, x2=0.002833, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.58e+04, flux=0.0001623, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5538.05651298173 , PS = 1.83451752944334e-05 -> 0.101596617521128 p_lab[0]=Vec4D(33.9848564520134,0,0,33.9848564520134); p_lab[1]=Vec4D(11.3302850513799,0,0,-11.3302850513799); p_lab[2]=Vec4D(13.8372946626336,-8.18874473590155,9.19393031481342,-6.31560199800057); p_lab[3]=Vec4D(31.4778468407597,8.18874473590155,-9.19393031481342,28.9701733986341); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0565, ta=151.6) * PDF(flb=G, xb=0.8224, tb=151.6) -> 0 type=none, B=325.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8224, x2=0.0565, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.407e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.58, \mu_f = 13.58. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.58 -> 'Alpha_QCD'{fac=1.409,cpl=0.118} \mu_F = 13.58 \mu_R = 13.58 } PDF(fla=G, xa=0.0001504, ta=184.4) * PDF(flb=G, xb=0.08859, tb=184.4) -> 6514 type=none, B=0.04975, VI=0, KP=0, K=0 muR2=184.4, muF2=184.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08859, x2=0.0001504, x1p=1, x2p=1 Cluster sequence: pdfwgt=6514, flux=0.0002932, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 324.071260444397 , PS = 2.65817284084529e-05 -> 0.00861437423011796 p_lab[0]=Vec4D(0.601503240122571,0,0,-0.601503240122566); p_lab[1]=Vec4D(354.340181400076,0,0,354.340181400076); p_lab[2]=Vec4D(272.519836926121,9.86257985232778,7.36976347245003,272.241579526817); p_lab[3]=Vec4D(82.4218477140704,-9.86257985232778,-7.36976347245003,81.4970986331293); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02113, ta=151.8) * PDF(flb=G, xb=0.09135, tb=151.8) -> 2.761 type=none, B=13.48, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09135, x2=0.02113, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.761, flux=2.024e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 37.2298481304611 , PS = 1.02809369829805e-05 -> 0.000382757722515203 p_lab[0]=Vec4D(84.5106044429399,0,0,-84.5106044429399); p_lab[1]=Vec4D(365.413127542318,0,0,365.413127542318); p_lab[2]=Vec4D(84.8557380782087,-11.8774937051287,-3.24176468424666,-83.9578012445191); p_lab[3]=Vec4D(365.067993907049,11.8774937051287,3.24176468424666,364.860324343897); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06981, ta=151.6) * PDF(flb=G, xb=0.2769, tb=151.6) -> 0 type=none, B=135.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06981, x2=0.2769, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.021e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02081, ta=151.7) * PDF(flb=G, xb=0.13, tb=151.7) -> 0.3594 type=none, B=18.93, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.13, x2=0.02081, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3594, flux=1.443e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6.80344529166318 , PS = 9.71809274319192e-06 -> 6.61165123176152e-05 p_lab[0]=Vec4D(83.2423921364164,0,0,-83.2423921364164); p_lab[1]=Vec4D(520.165343861879,0,0,520.165343861879); p_lab[2]=Vec4D(83.6251221829678,10.8780571179346,-5.76643462829093,-82.7138269283492); p_lab[3]=Vec4D(519.782613815328,-10.8780571179346,5.76643462829093,519.636778653812); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.008181, ta=152.1) * PDF(flb=G, xb=0.09428, tb=152.1) -> 14.63 type=none, B=5.356, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09428, x2=0.008181, x1p=1, x2p=1 Cluster sequence: pdfwgt=14.63, flux=5.065e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 78.3508173953969 , PS = 1.18337517781282e-05 -> 0.000927184124670573 p_lab[0]=Vec4D(32.7219996458305,0,0,-32.7219996458305); p_lab[1]=Vec4D(377.114977794055,0,0,377.114977794055); p_lab[2]=Vec4D(33.7828976807943,-9.76305227879646,-7.5011135963194,-31.4595022326739); p_lab[3]=Vec4D(376.054079759091,9.76305227879646,7.5011135963194,375.852480380898); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06238, ta=151.6) * PDF(flb=G, xb=0.1366, tb=151.6) -> 0.01276 type=none, B=59.73, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1366, x2=0.06238, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01276, flux=4.583e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.762254268793555 , PS = 7.82309920434931e-06 -> 5.96319076371072e-06 p_lab[0]=Vec4D(249.518535193781,0,0,-249.518535193781); p_lab[1]=Vec4D(546.495168886579,0,0,546.495168886579); p_lab[2]=Vec4D(249.601090873352,8.66269449953934,8.74880671812171,-249.297253635462); p_lab[3]=Vec4D(546.412613207008,-8.66269449953934,-8.74880671812171,546.27388732826); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.0001754, ta=156.4) * PDF(flb=G, xb=0.4369, tb=156.4) -> 0 type=none, B=0.4857, VI=0, KP=0, K=0 muR2=156.4, muF2=156.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001754, x2=0.4369, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.098e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03229, ta=151.6) * PDF(flb=G, xb=0.3634, tb=151.6) -> 0 type=none, B=82.26, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3634, x2=0.03229, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.329e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.6124, ta=151.6) * PDF(flb=G, xb=0.03276, tb=151.6) -> 0 type=none, B=140.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03276, x2=0.6124, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.947e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4903, ta=151.6) * PDF(flb=G, xb=0.09852, tb=151.6) -> 0 type=none, B=338.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4903, x2=0.09852, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.087e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.69, \mu_f = 12.69. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.69 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.69 \mu_R = 12.69 } PDF(fla=G, xa=0.0004201, ta=161) * PDF(flb=G, xb=0.09688, tb=161) -> 1403 type=none, B=0.2353, VI=0, KP=0, K=0 muR2=161, muF2=161, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004201, x2=0.09688, x1p=1, x2p=1 Cluster sequence: pdfwgt=1403, flux=9.598e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 330.089275660432 , PS = 1.6308641867661e-05 -> 0.0053833077811016 p_lab[0]=Vec4D(1.68036799767659,0,0,1.68036799767671); p_lab[1]=Vec4D(387.530490865254,0,0,-387.530490865254); p_lab[2]=Vec4D(363.59077423428,-11.9970699150347,-2.7666240144208,-363.382260454882); p_lab[3]=Vec4D(25.6200846286481,11.9970699150347,2.7666240144208,-22.4678624126927); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.58, ta=153.4) * PDF(flb=G, xb=0.0003396, tb=153.4) -> 0 type=none, B=1.329, VI=0, KP=0, K=0 muR2=153.4, muF2=153.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003396, x2=0.58, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.983e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.004703, ta=151.8) * PDF(flb=G, xb=0.4095, tb=151.8) -> 0 type=none, B=13.45, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004703, x2=0.4095, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.028e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7038, ta=151.6) * PDF(flb=G, xb=0.06851, tb=151.6) -> 0 type=none, B=338.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06851, x2=0.7038, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.102e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.73, \mu_f = 13.73. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.73 -> 'Alpha_QCD'{fac=1.405,cpl=0.118} \mu_F = 13.73 \mu_R = 13.73 } PDF(fla=G, xa=0.0006699, ta=188.5) * PDF(flb=G, xb=0.01805, tb=188.5) -> 9.415e+04 type=none, B=0.04206, VI=0, KP=0, K=0 muR2=188.5, muF2=188.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0006699, x2=0.01805, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.415e+04, flux=0.000323, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3959.85916874076 , PS = 3.0689761563413e-05 -> 0.121527133713349 p_lab[0]=Vec4D(2.67968744935711,0,0,2.67968744935711); p_lab[1]=Vec4D(72.2131052232327,0,0,-72.2131052232327); p_lab[2]=Vec4D(53.6289947808094,2.09315282523422,-12.1327081162292,-52.1966012898989); p_lab[3]=Vec4D(21.2637978917804,-2.09315282523422,12.1327081162292,-17.3368164839766); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.006061, ta=155.2) * PDF(flb=G, xb=0.01669, tb=155.2) -> 3843 type=none, B=0.6574, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01669, x2=0.006061, x1p=1, x2p=1 Cluster sequence: pdfwgt=3843, flux=3.862e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2526.40300264559 , PS = 1.5004886808395e-05 -> 0.0379083910870862 p_lab[0]=Vec4D(24.2420919963793,0,0,-24.2420919963793); p_lab[1]=Vec4D(66.7616026731505,0,0,66.7616026731505); p_lab[2]=Vec4D(25.262163246788,-3.55237049439972,-11.788322987343,-22.058853028296); p_lab[3]=Vec4D(65.7415314227418,3.55237049439972,11.788322987343,64.5783637050673); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2541, ta=151.7) * PDF(flb=G, xb=0.02138, tb=151.7) -> 0 type=none, B=38.05, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02138, x2=0.2541, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.19e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.004767, ta=152.3) * PDF(flb=G, xb=0.1078, tb=152.3) -> 24.33 type=none, B=3.552, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004767, x2=0.1078, x1p=1, x2p=1 Cluster sequence: pdfwgt=24.33, flux=7.599e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 86.4304202503788 , PS = 1.25427013243263e-05 -> 0.0010840709465365 p_lab[0]=Vec4D(19.0663246962596,0,0,19.0663246962596); p_lab[1]=Vec4D(431.363371972897,0,0,-431.363371972897); p_lab[2]=Vec4D(429.454801891504,4.25004123214624,11.5551306573512,-429.278281505934); p_lab[3]=Vec4D(20.9748947776529,-4.25004123214624,-11.5551306573512,16.9812342292959); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02707, ta=151.8) * PDF(flb=G, xb=0.05095, tb=151.8) -> 13.86 type=none, B=9.622, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02707, x2=0.05095, x1p=1, x2p=1 Cluster sequence: pdfwgt=13.86, flux=2.832e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 133.33686113652 , PS = 1.08441511419893e-05 -> 0.00144592507496287 p_lab[0]=Vec4D(108.299256918448,0,0,108.299256918448); p_lab[1]=Vec4D(203.792263939638,0,0,-203.792263939638); p_lab[2]=Vec4D(108.463504543073,9.80286483917356,-7.44900905680047,107.762460638117); p_lab[3]=Vec4D(203.628016315013,-9.80286483917356,7.44900905680047,-203.255467659307); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.03656, ta=152.5) * PDF(flb=G, xb=0.01129, tb=152.5) -> 221.5 type=none, B=2.842, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01129, x2=0.03656, x1p=1, x2p=1 Cluster sequence: pdfwgt=221.5, flux=9.464e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 629.520081487257 , PS = 1.29358973748839e-05 -> 0.0081434071695477 p_lab[0]=Vec4D(146.237631009027,0,0,-146.237631009027); p_lab[1]=Vec4D(45.1613758820967,0,0,45.1613758820967); p_lab[2]=Vec4D(145.654280407102,2.35033846997112,12.0855204298356,-145.132992479061); p_lab[3]=Vec4D(45.7447264840223,-2.35033846997112,-12.0855204298356,44.0567373521306); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.003368, ta=152.4) * PDF(flb=G, xb=0.1339, tb=152.4) -> 11.72 type=none, B=3.111, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003368, x2=0.1339, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.72, flux=8.659e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 36.4577206608772 , PS = 1.27755930896609e-05 -> 0.00046576900413989 p_lab[0]=Vec4D(13.4731784519782,0,0,13.4731784519783); p_lab[1]=Vec4D(535.744740964061,0,0,-535.744740964061); p_lab[2]=Vec4D(532.988230050797,-10.3459663458018,6.6741947345682,-532.846009159962); p_lab[3]=Vec4D(16.2296893652419,10.3459663458018,-6.6741947345682,10.5744466478794); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1001, ta=151.6) * PDF(flb=G, xb=0.4529, tb=151.6) -> 0 type=none, B=318, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4529, x2=0.1001, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.614e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1177, ta=151.7) * PDF(flb=G, xb=0.02522, tb=151.7) -> 0.6582 type=none, B=20.77, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02522, x2=0.1177, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.6582, flux=1.316e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 13.6684487381756 , PS = 9.56468615560127e-06 -> 0.000130734422414574 p_lab[0]=Vec4D(470.859534452395,0,0,-470.859534452395); p_lab[1]=Vec4D(100.863622015569,0,0,100.863622015569); p_lab[2]=Vec4D(101.159090403374,9.10467187009444,-8.28787337749025,100.407059892492); p_lab[3]=Vec4D(470.564066064591,-9.10467187009444,8.28787337749025,-470.402972329318); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.07709, ta=151.7) * PDF(flb=G, xb=0.04954, tb=151.7) -> 0.6909 type=none, B=26.73, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04954, x2=0.07709, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.6909, flux=1.023e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 18.4684907813106 , PS = 9.14746391756202e-06 -> 0.000168939853033865 p_lab[0]=Vec4D(308.341229320953,0,0,-308.341229320953); p_lab[1]=Vec4D(198.145807226205,0,0,198.145807226205); p_lab[2]=Vec4D(308.272836618419,0.250863251243816,12.3093851435633,-308.026878537869); p_lab[3]=Vec4D(198.214199928739,-0.250863251243816,-12.3093851435633,197.831456443121); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.05782, ta=153.5) * PDF(flb=G, xb=0.003275, tb=153.5) -> 471 type=none, B=1.275, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003275, x2=0.05782, x1p=1, x2p=1 Cluster sequence: pdfwgt=471, flux=2.063e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 600.632197545289 , PS = 1.44311948729251e-05 -> 0.00866784028972933 p_lab[0]=Vec4D(231.272017708994,0,0,-231.272017708994); p_lab[1]=Vec4D(13.0980862862322,0,0,13.0980862862321); p_lab[2]=Vec4D(15.8624994992692,-7.42897345820879,9.81805725898102,10.001749615988); p_lab[3]=Vec4D(228.507604495957,7.42897345820879,-9.81805725898102,-228.175681038749); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.94, \mu_f = 12.94. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.94 -> 'Alpha_QCD'{fac=1.424,cpl=0.118} \mu_F = 12.94 \mu_R = 12.94 } PDF(fla=G, xa=0.0005836, ta=167.4) * PDF(flb=G, xb=0.04304, tb=167.4) -> 1.407e+04 type=none, B=0.1281, VI=0, KP=0, K=0 muR2=167.4, muF2=167.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005836, x2=0.04304, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.407e+04, flux=0.0001555, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1802.45445533155 , PS = 1.81005273580303e-05 -> 0.0326253761803324 p_lab[0]=Vec4D(2.33456021072114,0,0,2.33456021072112); p_lab[1]=Vec4D(172.154393447208,0,0,-172.154393447208); p_lab[2]=Vec4D(154.25536544548,-0.857029945356685,12.2820761541428,-153.763239669744); p_lab[3]=Vec4D(20.2335882124496,0.857029945356685,-12.2820761541428,-16.0565935667431); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.08, \mu_f = 14.08. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.08 -> 'Alpha_QCD'{fac=1.398,cpl=0.118} \mu_F = 14.08 \mu_R = 14.08 } PDF(fla=G, xa=0.002695, ta=198.3) * PDF(flb=G, xb=0.003731, tb=198.3) -> 1.962e+05 type=none, B=0.02972, VI=0, KP=0, K=0 muR2=198.3, muF2=198.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002695, x2=0.003731, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.962e+05, flux=0.0003884, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5832.67463115994 , PS = 5.9324596907559e-05 -> 0.346021071386509 p_lab[0]=Vec4D(10.781372793429,0,0,10.781372793429); p_lab[1]=Vec4D(14.925174026015,0,0,-14.925174026015); p_lab[2]=Vec4D(13.352172043283,10.6007644016527,6.26160435384196,-5.16687558298322); p_lab[3]=Vec4D(12.3543747761609,-10.6007644016527,-6.26160435384196,1.02307435039723); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07083, ta=151.6) * PDF(flb=G, xb=0.1329, tb=151.6) -> 0.01072 type=none, B=65.98, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1329, x2=0.07083, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01072, flux=4.149e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.707479201713767 , PS = 7.65934727291742e-06 -> 5.41882889429213e-06 p_lab[0]=Vec4D(283.315108762382,0,0,-283.315108762382); p_lab[1]=Vec4D(531.654689193098,0,0,531.654689193098); p_lab[2]=Vec4D(283.377604289471,-7.29471984114716,-9.91821341888621,-283.110018752175); p_lab[3]=Vec4D(531.592193666009,7.29471984114716,9.91821341888621,531.449599182891); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.64, \mu_f = 13.64. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.64 -> 'Alpha_QCD'{fac=1.407,cpl=0.118} \mu_F = 13.64 \mu_R = 13.64 } PDF(fla=G, xa=0.001994, ta=186.1) * PDF(flb=G, xb=0.006409, tb=186.1) -> 1.271e+05 type=none, B=0.04636, VI=0, KP=0, K=0 muR2=186.1, muF2=186.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006409, x2=0.001994, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.271e+05, flux=0.0003056, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5893.33621225793 , PS = 2.80780533718325e-05 -> 0.165473408705932 p_lab[0]=Vec4D(7.97735952130339,0,0,-7.97735952130339); p_lab[1]=Vec4D(25.6376834713184,0,0,25.6376834713184); p_lab[2]=Vec4D(12.3151065268965,-4.43093557067611,-11.4869798011452,0.279202051226901); p_lab[3]=Vec4D(21.2999364657253,4.43093557067611,11.4869798011452,17.3811218987881); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4195, ta=151.6) * PDF(flb=G, xb=0.01745, tb=151.6) -> 0 type=none, B=51.28, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01745, x2=0.4195, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.337e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.6384, ta=151.7) * PDF(flb=G, xb=0.004631, tb=151.7) -> 0 type=none, B=20.69, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6384, x2=0.004631, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.321e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.47, \mu_f = 12.47. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.47 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.47 \mu_R = 12.47 } PDF(fla=G, xa=0.00342, ta=155.5) * PDF(flb=G, xb=0.02734, tb=155.5) -> 3373 type=none, B=0.6037, VI=0, KP=0, K=0 muR2=155.5, muF2=155.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00342, x2=0.02734, x1p=1, x2p=1 Cluster sequence: pdfwgt=3373, flux=4.178e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2036.56727504638 , PS = 1.50688250209811e-05 -> 0.0306886759111302 p_lab[0]=Vec4D(13.6795078839806,0,0,13.6795078839806); p_lab[1]=Vec4D(109.350585869164,0,0,-109.350585869164); p_lab[2]=Vec4D(106.86214208567,-12.3082889292349,-0.299864332445958,-106.150522919835); p_lab[3]=Vec4D(16.1679516674748,12.3082889292349,0.299864332445958,10.4794449346519); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.05978, ta=151.8) * PDF(flb=G, xb=0.02509, tb=151.8) -> 9.41 type=none, B=10.47, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05978, x2=0.02509, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.41, flux=2.604e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 98.5017773986483 , PS = 1.07031797149165e-05 -> 0.00105428222573643 p_lab[0]=Vec4D(239.10242494462,0,0,239.10242494462); p_lab[1]=Vec4D(100.375521364419,0,0,-100.375521364419); p_lab[2]=Vec4D(238.88302861972,5.14758404617343,-11.1841974889118,238.565541240865); p_lab[3]=Vec4D(100.594917689319,-5.14758404617343,11.1841974889118,-99.8386376606641); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14, \mu_f = 14. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14 -> 'Alpha_QCD'{fac=1.399,cpl=0.118} \mu_F = 14 \mu_R = 14 } PDF(fla=G, xa=0.1484, ta=196) * PDF(flb=G, xb=7.043e-05, tb=196) -> 1079 type=none, B=0.03206, VI=0, KP=0, K=0 muR2=196, muF2=196, oqcd=2, oew=0, fl1=21, fl2=21, x1=7.043e-05, x2=0.1484, x1p=1, x2p=1 Cluster sequence: pdfwgt=1079, flux=0.0003737, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 34.5877786539074 , PS = 4.67011811975951e-05 -> 0.00161529011813844 p_lab[0]=Vec4D(593.578175180758,0,0,-593.578175180758); p_lab[1]=Vec4D(0.28173263238624,0,0,0.281732632386364); p_lab[2]=Vec4D(206.191353901857,-10.7394333575599,-6.0206699080692,-205.823445041855); p_lab[3]=Vec4D(387.668553911311,10.7394333575599,6.0206699080692,-387.472997506541); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02994, ta=151.6) * PDF(flb=G, xb=0.1829, tb=151.6) -> -0.0003738 type=none, B=38.36, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1829, x2=0.02994, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0003738, flux=7.133e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0143374631551205 , PS = 8.55191918789131e-06 -> -1.2261282626196e-07 p_lab[0]=Vec4D(119.778528261966,0,0,-119.778528261966); p_lab[1]=Vec4D(731.504587105142,0,0,731.504587105142); p_lab[2]=Vec4D(731.239894392404,-1.41404781744197,12.2304686645029,731.13623850554); p_lab[3]=Vec4D(120.043220974704,1.41404781744197,-12.2304686645029,-119.410179662365); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.02909, ta=152.6) * PDF(flb=G, xb=0.0128, tb=152.6) -> 296.5 type=none, B=2.559, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02909, x2=0.0128, x1p=1, x2p=1 Cluster sequence: pdfwgt=296.5, flux=1.049e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 758.76360111738 , PS = 1.31234922120742e-05 -> 0.00995762821006932 p_lab[0]=Vec4D(116.364916161146,0,0,116.364916161146); p_lab[1]=Vec4D(51.2036178803221,0,0,-51.2036178803222); p_lab[2]=Vec4D(51.6207263597777,-12.3099033261106,0.223997958055128,-50.1309833828108); p_lab[3]=Vec4D(115.94780768169,12.3099033261106,-0.223997958055128,115.292281663635); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.93, \mu_f = 12.93. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.93 -> 'Alpha_QCD'{fac=1.424,cpl=0.118} \mu_F = 12.93 \mu_R = 12.93 } PDF(fla=G, xa=0.006172, ta=167.2) * PDF(flb=G, xb=0.004121, tb=167.2) -> 4.455e+04 type=none, B=0.1302, VI=0, KP=0, K=0 muR2=167.2, muF2=167.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004121, x2=0.006172, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.455e+04, flux=0.0001536, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5800.64945381924 , PS = 1.80332965330944e-05 -> 0.104604831685255 p_lab[0]=Vec4D(24.6878643123669,0,0,-24.6878643123669); p_lab[1]=Vec4D(16.4827801689113,0,0,16.4827801689113); p_lab[2]=Vec4D(23.8351183183773,8.49215239905564,-8.9144401178433,-20.4090413853186); p_lab[3]=Vec4D(17.3355261629009,-8.49215239905564,8.9144401178433,12.203957241863); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.04783, ta=151.8) * PDF(flb=G, xb=0.03897, tb=151.8) -> 6.51 type=none, B=13.02, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03897, x2=0.04783, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.51, flux=2.095e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 84.7841610493077 , PS = 1.03389505909769e-05 -> 0.000876579251986217 p_lab[0]=Vec4D(191.337028563414,0,0,-191.337028563414); p_lab[1]=Vec4D(155.889607953383,0,0,155.889607953383); p_lab[2]=Vec4D(191.29193502159,-11.6019377591536,4.1205503535483,-190.895312957969); p_lab[3]=Vec4D(155.934701495207,11.6019377591536,-4.1205503535483,155.447892347937); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0587, ta=151.6) * PDF(flb=G, xb=0.6171, tb=151.6) -> 0 type=none, B=254, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6171, x2=0.0587, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.078e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.82, \mu_f = 12.82. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.82 -> 'Alpha_QCD'{fac=1.427,cpl=0.118} \mu_F = 12.82 \mu_R = 12.82 } PDF(fla=G, xa=0.01973, ta=164.3) * PDF(flb=G, xb=0.001551, tb=164.3) -> 2.312e+04 type=none, B=0.1656, VI=0, KP=0, K=0 muR2=164.3, muF2=164.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001551, x2=0.01973, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.312e+04, flux=0.0001276, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3829.43766773117 , PS = 1.71913937489419e-05 -> 0.0658333707829962 p_lab[0]=Vec4D(78.9172093257369,0,0,-78.9172093257369); p_lab[1]=Vec4D(6.20518787254195,0,0,6.20518787254194); p_lab[2]=Vec4D(12.3517132755478,-6.64792054231646,10.3628686880828,-0.990417012143691); p_lab[3]=Vec4D(72.7706839227311,6.64792054231646,-10.3628686880828,-71.7216044410513); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1843, ta=151.6) * PDF(flb=G, xb=0.1206, tb=151.6) -> 2.05e-05 type=none, B=155.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1206, x2=0.1843, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.05e-05, flux=1.757e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00319422148631097 , PS = 6.24716919563051e-06 -> 1.9954842073303e-08 p_lab[0]=Vec4D(737.20778515518,0,0,-737.207785155179); p_lab[1]=Vec4D(482.403433920687,0,0,482.403433920687); p_lab[2]=Vec4D(482.430588675957,-11.9828601769959,-2.82753549260955,482.273458729845); p_lab[3]=Vec4D(737.180630399909,11.9828601769959,2.82753549260955,-737.077809964337); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05386, ta=151.6) * PDF(flb=G, xb=0.371, tb=151.6) -> 0 type=none, B=140.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05386, x2=0.371, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.955e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.76, \mu_f = 12.76. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.76 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.76 \mu_R = 12.76 } PDF(fla=G, xa=0.0007421, ta=162.9) * PDF(flb=G, xb=0.04589, tb=162.9) -> 7406 type=none, B=0.1894, VI=0, KP=0, K=0 muR2=162.9, muF2=162.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04589, x2=0.0007421, x1p=1, x2p=1 Cluster sequence: pdfwgt=7406, flux=0.0001147, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1402.42513315981 , PS = 1.68140276193003e-05 -> 0.0235804149229499 p_lab[0]=Vec4D(2.9683414705803,0,0,-2.96834147058029); p_lab[1]=Vec4D(183.557306254343,0,0,183.557306254343); p_lab[2]=Vec4D(16.5500569865765,-1.22006408763571,-12.2513402779232,11.0598594600262); p_lab[3]=Vec4D(169.975590738347,1.22006408763571,12.2513402779232,169.529105323736); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.5628, ta=151.7) * PDF(flb=G, xb=0.004484, tb=151.7) -> 0 type=none, B=17.65, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004484, x2=0.5628, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.548e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.0007659, ta=152.7) * PDF(flb=G, xb=0.4184, tb=152.7) -> 0 type=none, B=2.195, VI=0, KP=0, K=0 muR2=152.7, muF2=152.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007659, x2=0.4184, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.219e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.00217, ta=153.2) * PDF(flb=G, xb=0.1035, tb=153.2) -> 99.91 type=none, B=1.522, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00217, x2=0.1035, x1p=1, x2p=1 Cluster sequence: pdfwgt=99.91, flux=1.74e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 152.023104285442 , PS = 1.40864965261401e-05 -> 0.00214147293040991 p_lab[0]=Vec4D(8.6796914103944,0,0,8.67969141039443); p_lab[1]=Vec4D(413.800386566793,0,0,-413.800386566793); p_lab[2]=Vec4D(409.479838108286,-10.9007793222915,-5.72336484509799,-409.294703022413); p_lab[3]=Vec4D(13.0002398689006,10.9007793222915,5.72336484509799,4.17400786601453); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.01725, ta=151.9) * PDF(flb=G, xb=0.06183, tb=151.9) -> 18.88 type=none, B=7.426, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06183, x2=0.01725, x1p=1, x2p=1 Cluster sequence: pdfwgt=18.88, flux=3.663e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 140.211974962979 , PS = 1.12794994906165e-05 -> 0.00158152090017326 p_lab[0]=Vec4D(68.9864297945141,0,0,-68.9864297945141); p_lab[1]=Vec4D(247.310209759949,0,0,247.310209759949); p_lab[2]=Vec4D(69.3834060225358,-10.1714843123471,6.93720418231134,-68.2823047085015); p_lab[3]=Vec4D(246.913233531927,10.1714843123471,-6.93720418231134,246.606084673936); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.735, ta=152.9) * PDF(flb=G, xb=0.0003703, tb=152.9) -> 0 type=none, B=1.856, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.735, x2=0.0003703, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.435e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.001586, ta=153.5) * PDF(flb=G, xb=0.1216, tb=153.5) -> 68.38 type=none, B=1.3, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001586, x2=0.1216, x1p=1, x2p=1 Cluster sequence: pdfwgt=68.38, flux=2.025e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 88.9103462149428 , PS = 1.43927890558668e-05 -> 0.00127966785795576 p_lab[0]=Vec4D(6.3435038170261,0,0,6.34350381702615); p_lab[1]=Vec4D(486.522010945923,0,0,-486.522010945923); p_lab[2]=Vec4D(12.3138258954814,-9.66337441409429,-7.62909496050668,0.215437231762252); p_lab[3]=Vec4D(480.551688867468,9.66337441409429,7.62909496050668,-480.393944360659); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2296, ta=151.6) * PDF(flb=G, xb=0.1899, tb=151.6) -> 4.459e-09 type=none, B=305.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1899, x2=0.2296, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.459e-09, flux=8.955e-08, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.36392090728929e-06 , PS = 5.14016766843352e-06 -> 7.01078214994892e-12 p_lab[0]=Vec4D(918.543496535031,0,0,-918.543496535031); p_lab[1]=Vec4D(759.78724419894,0,0,759.78724419894); p_lab[2]=Vec4D(918.534875572281,-0.782487308726495,12.2870504432546,-918.452357908456); p_lab[3]=Vec4D(759.79586516169,0.782487308726495,-12.2870504432546,759.696105572365); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.0004843, ta=160.4) * PDF(flb=G, xb=0.08891, tb=160.4) -> 1652 type=none, B=0.2518, VI=0, KP=0, K=0 muR2=160.4, muF2=160.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004843, x2=0.08891, x1p=1, x2p=1 Cluster sequence: pdfwgt=1652, flux=9.071e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 415.950613845721 , PS = 1.61744349324911e-05 -> 0.00672776613877736 p_lab[0]=Vec4D(1.93739170390597,0,0,1.93739170390582); p_lab[1]=Vec4D(355.652211407041,0,0,-355.652211407041); p_lab[2]=Vec4D(334.991674116189,3.59576015059633,11.7751604627191,-334.765347418432); p_lab[3]=Vec4D(22.5979289947588,-3.59576015059633,-11.7751604627191,-18.9494722847039); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.97, \mu_f = 12.97. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.97 -> 'Alpha_QCD'{fac=1.423,cpl=0.118} \mu_F = 12.97 \mu_R = 12.97 } PDF(fla=G, xa=0.009964, ta=168.3) * PDF(flb=G, xb=0.002389, tb=168.3) -> 4.567e+04 type=none, B=0.1191, VI=0, KP=0, K=0 muR2=168.3, muF2=168.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002389, x2=0.009964, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.567e+04, flux=0.0001641, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5440.73959001574 , PS = 1.8411321580699e-05 -> 0.10017120622862 p_lab[0]=Vec4D(39.8558988000555,0,0,-39.8558988000554); p_lab[1]=Vec4D(9.55569328972857,0,0,9.55569328972857); p_lab[2]=Vec4D(12.9511703150896,10.3010696667724,6.74328248731294,4.01857158043221); p_lab[3]=Vec4D(36.4604217746944,-10.3010696667724,-6.74328248731294,-34.3187770907591); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.73, \mu_f = 12.73. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.73 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.73 \mu_R = 12.73 } PDF(fla=G, xa=0.003758, ta=162) * PDF(flb=G, xb=0.009788, tb=162) -> 2.299e+04 type=none, B=0.2082, VI=0, KP=0, K=0 muR2=162, muF2=162, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.009788, x2=0.003758, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.299e+04, flux=0.0001062, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4787.03412848872 , PS = 1.65786012923557e-05 -> 0.079362330189114 p_lab[0]=Vec4D(15.0328099433987,0,0,-15.0328099433987); p_lab[1]=Vec4D(39.1500484567071,0,0,39.1500484567071); p_lab[2]=Vec4D(16.7011339991752,-11.4623818665802,4.49418479015866,-11.2846790771827); p_lab[3]=Vec4D(37.4817244009307,11.4623818665802,-4.49418479015866,35.4019175904911); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.007813, ta=151.7) * PDF(flb=G, xb=0.3153, tb=151.7) -> 0 type=none, B=17.22, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007813, x2=0.3153, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.586e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.04693, ta=151.7) * PDF(flb=G, xb=0.05536, tb=151.7) -> 2.468 type=none, B=18.17, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04693, x2=0.05536, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.468, flux=1.504e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 44.8276929480726 , PS = 9.78614331095524e-06 -> 0.000438690227489336 p_lab[0]=Vec4D(187.704891112163,0,0,187.704891112162); p_lab[1]=Vec4D(221.42187856522,0,0,-221.42187856522); p_lab[2]=Vec4D(187.735662157119,-3.24480380549647,11.876663809641,187.33151083197); p_lab[3]=Vec4D(221.391107520264,3.24480380549647,-11.876663809641,-221.048498285028); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3645, ta=151.6) * PDF(flb=G, xb=0.03627, tb=151.6) -> 0 type=none, B=92.69, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3645, x2=0.03627, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.954e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.002501, ta=151.8) * PDF(flb=G, xb=0.6057, tb=151.8) -> 0 type=none, B=10.57, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6057, x2=0.002501, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.579e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.1775, ta=153) * PDF(flb=G, xb=0.001434, tb=153) -> 0.1519 type=none, B=1.732, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1775, x2=0.001434, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1519, flux=1.535e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.263089075821307 , PS = 1.38400173976576e-05 -> 3.64115738650056e-06 p_lab[0]=Vec4D(709.912803536926,0,0,709.912803536926); p_lab[1]=Vec4D(5.73623243603089,0,0,-5.73623243603073); p_lab[2]=Vec4D(12.3514180159548,-0.431978004382497,12.3043606086269,0.986727936895825); p_lab[3]=Vec4D(703.297617957001,0.431978004382497,-12.3043606086269,703.189843163998); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.46, \mu_f = 13.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.46 -> 'Alpha_QCD'{fac=1.411,cpl=0.118} \mu_F = 13.46 \mu_R = 13.46 } PDF(fla=G, xa=0.0001036, ta=181.2) * PDF(flb=G, xb=0.14, tb=181.2) -> 577 type=none, B=0.05735, VI=0, KP=0, K=0 muR2=181.2, muF2=181.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.14, x2=0.0001036, x1p=1, x2p=1 Cluster sequence: pdfwgt=577, flux=0.0002692, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 33.089786164572 , PS = 2.42455671142567e-05 -> 0.000802280631249535 p_lab[0]=Vec4D(0.41453932002374,0,0,-0.414539320023573); p_lab[1]=Vec4D(560.093295267406,0,0,560.093295267406); p_lab[2]=Vec4D(445.128864973614,8.76255251942553,-8.64878999211507,444.95856271985); p_lab[3]=Vec4D(115.378969613822,-8.76255251942553,8.64878999211507,114.720193227539); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.06, \mu_f = 13.06. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.06 -> 'Alpha_QCD'{fac=1.421,cpl=0.118} \mu_F = 13.06 \mu_R = 13.06 } PDF(fla=G, xa=0.005813, ta=170.5) * PDF(flb=G, xb=0.003672, tb=170.5) -> 5.862e+04 type=none, B=0.1025, VI=0, KP=0, K=0 muR2=170.5, muF2=170.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005813, x2=0.003672, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.862e+04, flux=0.000183, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6010.45622846632 , PS = 1.91537287496506e-05 -> 0.115122648261692 p_lab[0]=Vec4D(23.2534545946332,0,0,23.2534545946332); p_lab[1]=Vec4D(14.6893222802534,0,0,-14.6893222802534); p_lab[2]=Vec4D(22.1649716072945,0.357002178106201,-12.3067641737472,18.4310084197466); p_lab[3]=Vec4D(15.7778052675921,-0.357002178106201,12.3067641737472,-9.86687610536678); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.88, \mu_f = 12.88. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.88 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.88 \mu_R = 12.88 } PDF(fla=G, xa=0.07422, ta=165.9) * PDF(flb=G, xb=0.0003704, tb=165.9) -> 3940 type=none, B=0.1443, VI=0, KP=0, K=0 muR2=165.9, muF2=165.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07422, x2=0.0003704, x1p=1, x2p=1 Cluster sequence: pdfwgt=3940, flux=0.0001421, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 568.480120651634 , PS = 1.76448813795645e-05 -> 0.0100307642955386 p_lab[0]=Vec4D(296.879477106828,0,0,296.879477106828); p_lab[1]=Vec4D(1.48177174284843,0,0,-1.4817717428483); p_lab[2]=Vec4D(29.6066761968157,-3.66404815454246,11.7540906115528,26.9252925785347); p_lab[3]=Vec4D(268.754572652861,3.66404815454246,-11.7540906115528,268.472412785446); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.0009653, ta=152.1) * PDF(flb=G, xb=0.6607, tb=152.1) -> 0 type=none, B=4.42, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0009653, x2=0.6607, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.125e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07817, ta=151.6) * PDF(flb=G, xb=0.4435, tb=151.6) -> 0 type=none, B=243.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07817, x2=0.4435, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.127e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0273, ta=151.6) * PDF(flb=G, xb=0.2006, tb=151.6) -> -0.0006323 type=none, B=38.37, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0273, x2=0.2006, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0006323, flux=7.131e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.024260197984523 , PS = 8.5514068203132e-06 -> -2.07458822506999e-07 p_lab[0]=Vec4D(109.202728988727,0,0,109.202728988727); p_lab[1]=Vec4D(802.596792956623,0,0,-802.596792956623); p_lab[2]=Vec4D(109.502666082662,10.4380233406457,6.52928508517871,108.808317624287); p_lab[3]=Vec4D(802.296855862687,-10.4380233406457,-6.52928508517871,-802.202381592183); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.03853, ta=152) * PDF(flb=G, xb=0.02158, tb=152) -> 49.69 type=none, B=5.777, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03853, x2=0.02158, x1p=1, x2p=1 Cluster sequence: pdfwgt=49.69, flux=4.699e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 287.086857166776 , PS = 1.1704755771482e-05 -> 0.00336028154833944 p_lab[0]=Vec4D(154.104714551135,0,0,154.104714551135); p_lab[1]=Vec4D(86.307244467422,0,0,-86.307244467422); p_lab[2]=Vec4D(153.9109893518,4.03358193245442,11.6324594036505,153.417758907717); p_lab[3]=Vec4D(86.5009696667574,-4.03358193245442,-11.6324594036505,-85.6202888240041); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.7513, ta=152.6) * PDF(flb=G, xb=0.0004805, tb=152.6) -> 0 type=none, B=2.479, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004805, x2=0.7513, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.082e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07104, ta=151.6) * PDF(flb=G, xb=0.5764, tb=151.6) -> 0 type=none, B=287.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07104, x2=0.5764, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.539e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.03159, ta=152.4) * PDF(flb=G, xb=0.01449, tb=152.4) -> 190.2 type=none, B=3.158, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03159, x2=0.01449, x1p=1, x2p=1 Cluster sequence: pdfwgt=190.2, flux=8.533e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 600.674175118585 , PS = 1.27492635511709e-05 -> 0.00765815336696903 p_lab[0]=Vec4D(126.37286543669,0,0,126.37286543669); p_lab[1]=Vec4D(57.9625802562623,0,0,-57.9625802562623); p_lab[2]=Vec4D(126.017088798324,3.59380710976203,-11.7757566823209,125.414204834306); p_lab[3]=Vec4D(58.3183568946282,-3.59380710976203,11.7757566823209,-57.0039196538784); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2399, ta=151.6) * PDF(flb=G, xb=0.05455, tb=151.6) -> -6.921e-06 type=none, B=91.73, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05455, x2=0.2399, x1p=1, x2p=1 Cluster sequence: pdfwgt=-6.921e-06, flux=2.985e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000634805363472514 , PS = 7.11785730379137e-06 -> -4.51845399287877e-09 p_lab[0]=Vec4D(959.500370063072,0,0,-959.500370063072); p_lab[1]=Vec4D(218.190155854996,0,0,218.190155854996); p_lab[2]=Vec4D(959.366158049921,5.1278548373303,-11.1932568875493,-959.287152690206); p_lab[3]=Vec4D(218.324367868146,-5.1278548373303,11.1932568875493,217.97693848213); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.09407, ta=153.4) * PDF(flb=G, xb=0.002117, tb=153.4) -> 124.5 type=none, B=1.344, VI=0, KP=0, K=0 muR2=153.4, muF2=153.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09407, x2=0.002117, x1p=1, x2p=1 Cluster sequence: pdfwgt=124.5, flux=1.961e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 167.378468275674 , PS = 1.43272261371564e-05 -> 0.00239806916547645 p_lab[0]=Vec4D(376.279260266074,0,0,376.279260266073); p_lab[1]=Vec4D(8.46902305489711,0,0,-8.4690230548971); p_lab[2]=Vec4D(371.852026135409,10.1790819802777,6.92605118535706,371.648147373326); p_lab[3]=Vec4D(12.8962571855611,-10.1790819802777,-6.92605118535706,-3.83791016215021); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.47, \mu_f = 12.47. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.47 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.47 \mu_R = 12.47 } PDF(fla=G, xa=0.2697, ta=155.5) * PDF(flb=G, xb=0.0003524, tb=155.5) -> 0 type=none, B=0.6145, VI=0, KP=0, K=0 muR2=155.5, muF2=155.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003524, x2=0.2697, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.11e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06171, ta=151.6) * PDF(flb=G, xb=0.1418, tb=151.6) -> 0.01506 type=none, B=61.32, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06171, x2=0.1418, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01506, flux=4.464e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.923495919192547 , PS = 7.77977697368197e-06 -> 7.18459228742344e-06 p_lab[0]=Vec4D(246.832296110941,0,0,246.832296110941); p_lab[1]=Vec4D(567.175372687906,0,0,-567.175372687906); p_lab[2]=Vec4D(246.919033565335,11.413358085876,-4.61726674418641,246.611891931139); p_lab[3]=Vec4D(567.088635233512,-11.413358085876,4.61726674418641,-566.954968508103); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1147, ta=151.6) * PDF(flb=G, xb=0.2986, tb=151.6) -> 0 type=none, B=240.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2986, x2=0.1147, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.141e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.162, ta=151.6) * PDF(flb=G, xb=0.1297, tb=151.6) -> 6e-05 type=none, B=147.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.162, x2=0.1297, x1p=1, x2p=1 Cluster sequence: pdfwgt=6e-05, flux=1.859e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00883882552257279 , PS = 6.33975504378195e-06 -> 5.60359886878395e-08 p_lab[0]=Vec4D(647.838647546405,0,0,647.838647546405); p_lab[1]=Vec4D(518.864808655618,0,0,-518.864808655618); p_lab[2]=Vec4D(518.879350603994,-9.89416237676854,7.32730822645932,-518.733261501746); p_lab[3]=Vec4D(647.824105598029,9.89416237676854,-7.32730822645932,647.707100392533); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1697, ta=151.6) * PDF(flb=G, xb=0.3055, tb=151.6) -> 0 type=none, B=363.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1697, x2=0.3055, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.533e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.5858, ta=152.2) * PDF(flb=G, xb=0.001039, tb=152.2) -> 0 type=none, B=4.216, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001039, x2=0.5858, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.417e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05871, ta=151.6) * PDF(flb=G, xb=0.4502, tb=151.6) -> 0 type=none, B=185.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4502, x2=0.05871, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.478e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1137, ta=151.6) * PDF(flb=G, xb=0.2424, tb=151.6) -> -1.504e-07 type=none, B=193.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1137, x2=0.2424, x1p=1, x2p=1 Cluster sequence: pdfwgt=-1.504e-07, flux=1.417e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -2.90709627099111e-05 , PS = 5.89393969431114e-06 -> -1.71342501067784e-10 p_lab[0]=Vec4D(454.766411195664,0,0,454.766411195663); p_lab[1]=Vec4D(969.658503687959,0,0,-969.658503687959); p_lab[2]=Vec4D(454.810663860591,4.71762386197084,-11.3722434057825,454.643988265905); p_lab[3]=Vec4D(969.614251023032,-4.71762386197084,11.3722434057825,-969.5360807582); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5809, ta=151.6) * PDF(flb=G, xb=0.009928, tb=151.6) -> 0 type=none, B=40.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5809, x2=0.009928, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.774e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.96, \mu_f = 12.96. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.96 -> 'Alpha_QCD'{fac=1.423,cpl=0.118} \mu_F = 12.96 \mu_R = 12.96 } PDF(fla=G, xa=0.006149, ta=168.1) * PDF(flb=G, xb=0.003924, tb=168.1) -> 4.811e+04 type=none, B=0.1214, VI=0, KP=0, K=0 muR2=168.1, muF2=168.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006149, x2=0.003924, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.811e+04, flux=0.0001619, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5838.52909013325 , PS = 1.83290403297845e-05 -> 0.107014635159673 p_lab[0]=Vec4D(24.5962255898198,0,0,24.5962255898198); p_lab[1]=Vec4D(15.6977573251014,0,0,-15.6977573251014); p_lab[2]=Vec4D(23.6145493799306,5.71046512854977,10.9075424821092,20.1510061146778); p_lab[3]=Vec4D(16.6794335349906,-5.71046512854977,-10.9075424821092,-11.2525378499594); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.06099, ta=152) * PDF(flb=G, xb=0.01275, tb=152) -> 35.63 type=none, B=5.402, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06099, x2=0.01275, x1p=1, x2p=1 Cluster sequence: pdfwgt=35.63, flux=5.023e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 192.499258293306 , PS = 1.18192899921972e-05 -> 0.00227520455705145 p_lab[0]=Vec4D(243.966765234381,0,0,243.966765234381); p_lab[1]=Vec4D(51.0065059161281,0,0,-51.0065059161281); p_lab[2]=Vec4D(243.377333704866,10.933714398972,-5.66019296712699,243.065716764636); p_lab[3]=Vec4D(51.5959374456431,-10.933714398972,5.66019296712699,-50.1054574463832); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.0008088, ta=155.2) * PDF(flb=G, xb=0.1258, tb=155.2) -> 93.46 type=none, B=0.6615, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1258, x2=0.0008088, x1p=1, x2p=1 Cluster sequence: pdfwgt=93.46, flux=3.839e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 61.8269096680779 , PS = 1.50003669446449e-05 -> 0.000927426332074584 p_lab[0]=Vec4D(3.23523497175205,0,0,-3.23523497175217); p_lab[1]=Vec4D(503.189362967668,0,0,503.189362967668); p_lab[2]=Vec4D(491.266840225605,-11.2205077145885,-5.06794846168146,491.11253741914); p_lab[3]=Vec4D(15.1577577138152,11.2205077145885,5.06794846168146,8.84159057677549); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.32, \mu_f = 13.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.32 -> 'Alpha_QCD'{fac=1.415,cpl=0.118} \mu_F = 13.32 \mu_R = 13.32 } PDF(fla=G, xa=0.0003802, ta=177.5) * PDF(flb=G, xb=0.04265, tb=177.5) -> 2.332e+04 type=none, B=0.06841, VI=0, KP=0, K=0 muR2=177.5, muF2=177.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04265, x2=0.0003802, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.332e+04, flux=0.0002409, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1595.42888323142 , PS = 2.21540600311648e-05 -> 0.0353452272545631 p_lab[0]=Vec4D(1.52098008565095,0,0,-1.52098008565097); p_lab[1]=Vec4D(170.585944122045,0,0,170.585944122045); p_lab[2]=Vec4D(31.5469385489372,-12.2284148914018,-1.43169976850679,29.045230879217); p_lab[3]=Vec4D(140.559985658759,12.2284148914018,1.43169976850679,140.019733157177); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.0005726, ta=152.5) * PDF(flb=G, xb=0.6796, tb=152.5) -> 0 type=none, B=2.676, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005726, x2=0.6796, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.004e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.00452, ta=153.2) * PDF(flb=G, xb=0.04962, tb=153.2) -> 403.5 type=none, B=1.52, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04962, x2=0.00452, x1p=1, x2p=1 Cluster sequence: pdfwgt=403.5, flux=1.742e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 613.369801353703 , PS = 1.40883342070672e-05 -> 0.00864135875399337 p_lab[0]=Vec4D(18.078956802331,0,0,-18.0789568023309); p_lab[1]=Vec4D(198.481568927373,0,0,198.481568927373); p_lab[2]=Vec4D(20.0047217488643,5.20114382454069,-11.1593905702705,-15.7672127297783); p_lab[3]=Vec4D(196.55580398084,-5.20114382454069,11.1593905702705,196.169824854821); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.04424, ta=151.7) * PDF(flb=G, xb=0.05069, tb=151.7) -> 3.781 type=none, B=15.68, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05069, x2=0.04424, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.781, flux=1.742e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 59.2715320646315 , PS = 1.00306797625599e-05 -> 0.00059453375717662 p_lab[0]=Vec4D(176.968963098536,0,0,-176.968963098536); p_lab[1]=Vec4D(202.750749996732,0,0,202.750749996732); p_lab[2]=Vec4D(202.723491247371,-0.0559841003667994,-12.3118138697719,202.349277262212); p_lab[3]=Vec4D(176.996221847898,0.0559841003667994,12.3118138697719,-176.567490364016); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01133, ta=151.8) * PDF(flb=G, xb=0.1827, tb=151.8) -> 0.03384 type=none, B=14.46, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01133, x2=0.1827, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.03384, flux=1.888e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.489417591500218 , PS = 1.01645370313444e-05 -> 4.97470323259537e-06 p_lab[0]=Vec4D(45.3166898755286,0,0,45.3166898755287); p_lab[1]=Vec4D(730.674312609878,0,0,-730.674312609878); p_lab[2]=Vec4D(46.1019728814132,6.14667144001188,-10.667817264649,44.4275591111549); p_lab[3]=Vec4D(729.889029603994,-6.14667144001188,10.667817264649,-729.785181845505); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.002609, ta=151.9) * PDF(flb=G, xb=0.4048, tb=151.9) -> 0 type=none, B=7.356, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4048, x2=0.002609, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.698e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.82, \mu_f = 12.82. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.82 -> 'Alpha_QCD'{fac=1.427,cpl=0.118} \mu_F = 12.82 \mu_R = 12.82 } PDF(fla=G, xa=0.2572, ta=164.3) * PDF(flb=G, xb=0.0001187, tb=164.3) -> 0 type=none, B=0.1651, VI=0, KP=0, K=0 muR2=164.3, muF2=164.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2572, x2=0.0001187, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.0001279, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.05845, ta=160.5) * PDF(flb=G, xb=0.000733, tb=160.5) -> 4109 type=none, B=0.2502, VI=0, KP=0, K=0 muR2=160.5, muF2=160.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.000733, x2=0.05845, x1p=1, x2p=1 Cluster sequence: pdfwgt=4109, flux=9.117e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1028.14764405411 , PS = 1.61861406530548e-05 -> 0.0166417423787667 p_lab[0]=Vec4D(233.81893701865,0,0,-233.81893701865); p_lab[1]=Vec4D(2.9318555582951,0,0,2.93185555829512); p_lab[2]=Vec4D(16.4917406514327,1.56724557798966,12.2117826823799,-10.9724024138161); p_lab[3]=Vec4D(220.259051925512,-1.56724557798966,-12.2117826823799,-219.914679046538); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.09951, ta=151.7) * PDF(flb=G, xb=0.046, tb=151.7) -> 0.2685 type=none, B=32.05, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09951, x2=0.046, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.2685, flux=8.534e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.60645405133391 , PS = 8.84789429903073e-06 -> 7.61489957356673e-05 p_lab[0]=Vec4D(398.056772367094,0,0,398.056772367094); p_lab[1]=Vec4D(183.983835820482,0,0,-183.983835820482); p_lab[2]=Vec4D(184.094665238165,11.0642376854863,5.40060546813646,-183.682502906969); p_lab[3]=Vec4D(397.94594294941,-11.0642376854863,-5.40060546813646,397.755439453582); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.4607, ta=151.7) * PDF(flb=G, xb=0.005107, tb=151.7) -> 0 type=none, B=16.45, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005107, x2=0.4607, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.66e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.02848, ta=151.8) * PDF(flb=G, xb=0.06396, tb=151.8) -> 5.997 type=none, B=12.73, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02848, x2=0.06396, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.997, flux=2.144e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 76.3199570206294 , PS = 1.03774079199589e-05 -> 0.000792003326436806 p_lab[0]=Vec4D(113.926600675165,0,0,113.926600675165); p_lab[1]=Vec4D(255.859213646566,0,0,-255.859213646566); p_lab[2]=Vec4D(255.674450739551,2.86892647225295,11.9730178267723,-255.377839418356); p_lab[3]=Vec4D(114.11136358218,-2.86892647225295,-11.9730178267723,113.445226446955); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.16, \mu_f = 13.16. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.16 -> 'Alpha_QCD'{fac=1.418,cpl=0.118} \mu_F = 13.16 \mu_R = 13.16 } PDF(fla=G, xa=0.0001765, ta=173.1) * PDF(flb=G, xb=0.1081, tb=173.1) -> 2749 type=none, B=0.08731, VI=0, KP=0, K=0 muR2=173.1, muF2=173.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001765, x2=0.1081, x1p=1, x2p=1 Cluster sequence: pdfwgt=2749, flux=0.0002048, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 239.984393898038 , PS = 2.01345307978843e-05 -> 0.00483197316995163 p_lab[0]=Vec4D(0.706117127104747,0,0,0.70611712710485); p_lab[1]=Vec4D(432.244228154479,0,0,-432.244228154479); p_lab[2]=Vec4D(63.3925698035299,-12.2246589920203,1.46342321705612,-62.185480711433); p_lab[3]=Vec4D(369.557775478061,12.2246589920203,-1.46342321705612,-369.352630315948); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1375, ta=151.6) * PDF(flb=G, xb=0.08806, tb=151.6) -> 0.003474 type=none, B=84.87, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1375, x2=0.08806, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.003474, flux=3.226e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.294856361154708 , PS = 7.24541860361747e-06 -> 2.13635776450527e-06 p_lab[0]=Vec4D(549.970177047948,0,0,549.970177047949); p_lab[1]=Vec4D(352.246813259208,0,0,-352.246813259208); p_lab[2]=Vec4D(352.285498903025,-11.8112245449178,3.47546683669009,-352.070289633149); p_lab[3]=Vec4D(549.931491404132,11.8112245449178,-3.47546683669009,549.79365342189); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.05034, ta=151.7) * PDF(flb=G, xb=0.0684, tb=151.7) -> 0.9655 type=none, B=24.1, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0684, x2=0.05034, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.9655, flux=1.135e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 23.2649496389862 , PS = 9.31880419909056e-06 -> 0.000216801510387415 p_lab[0]=Vec4D(201.358712162924,0,0,-201.358712162924); p_lab[1]=Vec4D(273.581644055885,0,0,273.581644055885); p_lab[2]=Vec4D(201.408429730487,-10.2716178662912,6.78806020835761,-201.031767816723); p_lab[3]=Vec4D(273.531926488323,10.2716178662912,-6.78806020835761,273.254699709684); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.001177, ta=154.3) * PDF(flb=G, xb=0.115, tb=154.3) -> 101.4 type=none, B=0.8969, VI=0, KP=0, K=0 muR2=154.3, muF2=154.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.115, x2=0.001177, x1p=1, x2p=1 Cluster sequence: pdfwgt=101.4, flux=2.886e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 90.9294657350378 , PS = 1.48127361955658e-05 -> 0.00134691418833686 p_lab[0]=Vec4D(4.70667923810619,0,0,-4.70667923810623); p_lab[1]=Vec4D(460.127690676784,0,0,460.127690676784); p_lab[2]=Vec4D(12.8204036491971,-0.942610055661675,-12.2758047095238,3.57475240330668); p_lab[3]=Vec4D(452.013966265693,0.942610055661675,12.2758047095238,451.846259035371); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.3695, ta=152.2) * PDF(flb=G, xb=0.001612, tb=152.2) -> 0 type=none, B=4.124, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001612, x2=0.3695, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.559e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.0009727, ta=152) * PDF(flb=G, xb=0.9507, tb=152) -> 0 type=none, B=6.434, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0009727, x2=0.9507, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.224e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.73, \mu_f = 12.73. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.73 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.73 \mu_R = 12.73 } PDF(fla=G, xa=0.11, ta=162) * PDF(flb=G, xb=0.000334, tb=162) -> 767 type=none, B=0.2079, VI=0, KP=0, K=0 muR2=162, muF2=162, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.11, x2=0.000334, x1p=1, x2p=1 Cluster sequence: pdfwgt=767, flux=0.0001063, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 159.491820928979 , PS = 1.65819553126957e-05 -> 0.00264468624738478 p_lab[0]=Vec4D(439.95203037621,0,0,439.95203037621); p_lab[1]=Vec4D(1.33616796428598,0,0,-1.33616796428596); p_lab[2]=Vec4D(31.7158984507994,12.3111911092422,-0.135898694318333,29.2286557945797); p_lab[3]=Vec4D(409.572299889697,-12.3111911092422,0.135898694318333,409.387206617345); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.45, \mu_f = 12.45. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.45 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.45 \mu_R = 12.45 } PDF(fla=G, xa=0.1923, ta=155) * PDF(flb=G, xb=0.0005563, tb=155) -> -0.7135 type=none, B=0.6981, VI=0, KP=0, K=0 muR2=155, muF2=155, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1923, x2=0.0005563, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.7135, flux=3.652e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.498093263483522 , PS = 1.49628995310801e-05 -> -7.45291945861173e-06 p_lab[0]=Vec4D(769.14727643636,0,0,769.147276436361); p_lab[1]=Vec4D(2.22521913138595,0,0,-2.22521913138581); p_lab[2]=Vec4D(751.77270567279,11.3584427920674,4.7507549213502,751.67188127507); p_lab[3]=Vec4D(19.5997898949595,-11.3584427920674,-4.7507549213502,15.2501760299071); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.7184, ta=151.9) * PDF(flb=G, xb=0.001874, tb=151.9) -> 0 type=none, B=9.39, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7184, x2=0.001874, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.902e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1395, ta=151.6) * PDF(flb=G, xb=0.1416, tb=151.6) -> 0.0002173 type=none, B=138.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1416, x2=0.1395, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0002173, flux=1.978e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0300851932687239 , PS = 6.44122437006606e-06 -> 1.93785480060652e-07 p_lab[0]=Vec4D(558.080870842784,0,0,-558.080870842783); p_lab[1]=Vec4D(566.236747677749,0,0,566.236747677749); p_lab[2]=Vec4D(566.235769493573,7.27316030227969,-9.9340341352717,566.101901391433); p_lab[3]=Vec4D(558.081849026959,-7.27316030227969,9.9340341352717,-557.946024556468); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03456, ta=151.6) * PDF(flb=G, xb=0.4683, tb=151.6) -> 0 type=none, B=113.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03456, x2=0.4683, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.414e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.0002086, ta=154.5) * PDF(flb=G, xb=0.592, tb=154.5) -> 0 type=none, B=0.8136, VI=0, KP=0, K=0 muR2=154.5, muF2=154.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.592, x2=0.0002086, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.164e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.5382, ta=151.8) * PDF(flb=G, xb=0.002518, tb=151.8) -> 0 type=none, B=9.451, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5382, x2=0.002518, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.883e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0105, ta=151.7) * PDF(flb=G, xb=0.351, tb=151.7) -> 0 type=none, B=25.81, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.351, x2=0.0105, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.06e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2621, ta=151.6) * PDF(flb=G, xb=0.1703, tb=151.6) -> 0 type=none, B=313, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2621, x2=0.1703, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.751e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0254, ta=151.6) * PDF(flb=G, xb=0.3103, tb=151.6) -> 0 type=none, B=55.22, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3103, x2=0.0254, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.957e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.7, \mu_f = 12.7. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.7 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.7 \mu_R = 12.7 } PDF(fla=G, xa=0.002694, ta=161.2) * PDF(flb=G, xb=0.01475, tb=161.2) -> 1.828e+04 type=none, B=0.2287, VI=0, KP=0, K=0 muR2=161.2, muF2=161.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002694, x2=0.01475, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.828e+04, flux=9.83e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4179.54465092324 , PS = 1.6368889505502e-05 -> 0.0684145045742743 p_lab[0]=Vec4D(10.7757739078019,0,0,10.7757739078019); p_lab[1]=Vec4D(59.0023933808088,0,0,-59.0023933808088); p_lab[2]=Vec4D(13.845689071727,1.65408242951637,12.200324024376,6.33397275708865); p_lab[3]=Vec4D(55.9324782168836,-1.65408242951637,-12.200324024376,-54.5605922300955); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.63, \mu_f = 12.63. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.63 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.63 \mu_R = 12.63 } PDF(fla=G, xa=0.008349, ta=159.4) * PDF(flb=G, xb=0.005775, tb=159.4) -> 1.552e+04 type=none, B=0.2875, VI=0, KP=0, K=0 muR2=159.4, muF2=159.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005775, x2=0.008349, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.552e+04, flux=8.102e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4463.95358035149 , PS = 1.59361263187869e-05 -> 0.0711381281376826 p_lab[0]=Vec4D(33.3948047510672,0,0,-33.3948047510672); p_lab[1]=Vec4D(23.1010615030752,0,0,23.1010615030752); p_lab[2]=Vec4D(32.861520643527,-11.3953851722188,-4.66144738897435,-30.4679445322712); p_lab[3]=Vec4D(23.6343456106153,11.3953851722188,4.66144738897435,20.1742012842792); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.5, \mu_f = 13.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.5 -> 'Alpha_QCD'{fac=1.41,cpl=0.118} \mu_F = 13.5 \mu_R = 13.5 } PDF(fla=G, xa=0.0003161, ta=182.2) * PDF(flb=G, xb=0.04456, tb=182.2) -> 2.648e+04 type=none, B=0.05463, VI=0, KP=0, K=0 muR2=182.2, muF2=182.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04456, x2=0.0003161, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.648e+04, flux=0.0002773, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1446.59588920401 , PS = 2.49611056691732e-05 -> 0.0361086328510128 p_lab[0]=Vec4D(1.26452572481524,0,0,-1.26452572481528); p_lab[1]=Vec4D(178.254949671318,0,0,178.254949671318); p_lab[2]=Vec4D(140.404454377716,6.56627722572423,-10.4147922868551,139.863601105223); p_lab[3]=Vec4D(39.1150210184177,-6.56627722572423,10.4147922868551,37.1268228412809); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.009151, ta=153.3) * PDF(flb=G, xb=0.02321, tb=153.3) -> 934.6 type=none, B=1.437, VI=0, KP=0, K=0 muR2=153.3, muF2=153.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02321, x2=0.009151, x1p=1, x2p=1 Cluster sequence: pdfwgt=934.6, flux=1.839e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1343.17460405598 , PS = 1.41967619255781e-05 -> 0.0190687300782655 p_lab[0]=Vec4D(36.6046153310129,0,0,-36.6046153310129); p_lab[1]=Vec4D(92.8530681712941,0,0,92.8530681712941); p_lab[2]=Vec4D(92.2187650837768,-9.18446039504082,-8.19936474584021,91.3931985357412); p_lab[3]=Vec4D(37.2389184185303,9.18446039504082,8.19936474584021,-35.14474569546); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.0002447, ta=156.8) * PDF(flb=G, xb=0.2933, tb=156.8) -> 0 type=none, B=0.4519, VI=0, KP=0, K=0 muR2=156.8, muF2=156.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2933, x2=0.0002447, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.442e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.74, \mu_f = 12.74. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.74 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.74 \mu_R = 12.74 } PDF(fla=G, xa=0.0005056, ta=162.3) * PDF(flb=G, xb=0.07069, tb=162.3) -> 3677 type=none, B=0.201, VI=0, KP=0, K=0 muR2=162.3, muF2=162.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005056, x2=0.07069, x1p=1, x2p=1 Cluster sequence: pdfwgt=3677, flux=0.0001093, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 739.054262183052 , PS = 1.66631639818573e-05 -> 0.0123149823622468 p_lab[0]=Vec4D(2.02239631979725,0,0,2.02239631979725); p_lab[1]=Vec4D(282.757189903285,0,0,-282.757189903285); p_lab[2]=Vec4D(262.723409383152,-12.1828675995113,-1.77809787024765,-262.434765118732); p_lab[3]=Vec4D(22.0561768399313,12.1828675995113,1.77809787024765,-18.3000284647571); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0168, ta=151.6) * PDF(flb=G, xb=0.7142, tb=151.6) -> 0 type=none, B=84.12, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0168, x2=0.7142, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.255e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.16, \mu_f = 13.16. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.16 -> 'Alpha_QCD'{fac=1.418,cpl=0.118} \mu_F = 13.16 \mu_R = 13.16 } PDF(fla=G, xa=0.0003898, ta=173.1) * PDF(flb=G, xb=0.0488, tb=173.1) -> 1.723e+04 type=none, B=0.08696, VI=0, KP=0, K=0 muR2=173.1, muF2=173.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003898, x2=0.0488, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.723e+04, flux=0.0002053, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1498.47980890407 , PS = 2.0162072210607e-05 -> 0.0302124581132605 p_lab[0]=Vec4D(1.55914964192425,0,0,1.55914964192428); p_lab[1]=Vec4D(195.217214573865,0,0,-195.217214573865); p_lab[2]=Vec4D(166.992052430038,7.43518134719158,9.813356883237,-166.537568373665); p_lab[3]=Vec4D(29.7843117857514,-7.43518134719158,-9.813356883237,-27.1204965582758); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.76, \mu_f = 12.76. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.76 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.76 \mu_R = 12.76 } PDF(fla=G, xa=0.0004144, ta=162.9) * PDF(flb=G, xb=0.08251, tb=162.9) -> 2231 type=none, B=0.1903, VI=0, KP=0, K=0 muR2=162.9, muF2=162.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08251, x2=0.0004144, x1p=1, x2p=1 Cluster sequence: pdfwgt=2231, flux=0.0001143, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 424.49909071611 , PS = 1.68014560307889e-05 -> 0.00713220280777658 p_lab[0]=Vec4D(1.65742519270579,0,0,-1.6574251927057); p_lab[1]=Vec4D(330.021087150167,0,0,330.021087150167); p_lab[2]=Vec4D(305.429917820712,-6.31419242751458,10.5695254846998,305.181668527098); p_lab[3]=Vec4D(26.2485945221609,6.31419242751458,-10.5695254846998,23.1819934303635); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.00141, ta=152) * PDF(flb=G, xb=0.6331, tb=152) -> 0 type=none, B=6.209, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6331, x2=0.00141, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.375e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1672, ta=151.6) * PDF(flb=G, xb=0.09093, tb=151.6) -> 0.0005714 type=none, B=106.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09093, x2=0.1672, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0005714, flux=2.569e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0609161404778476 , PS = 6.87085250384101e-06 -> 4.1854581632655e-07 p_lab[0]=Vec4D(668.907600039507,0,0,-668.907600039507); p_lab[1]=Vec4D(363.726301610571,0,0,363.72630161057); p_lab[2]=Vec4D(363.773843650357,-4.24023930287643,11.5587311430685,363.565434865818); p_lab[3]=Vec4D(668.86005799972,4.24023930287643,-11.5587311430685,-668.746733294755); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1772, ta=151.6) * PDF(flb=G, xb=0.09044, tb=151.6) -> 0.0002285 type=none, B=112.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09044, x2=0.1772, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0002285, flux=2.438e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0256702192617828 , PS = 6.7847478021829e-06 -> 1.74165963717934e-07 p_lab[0]=Vec4D(708.689576364863,0,0,-708.689576364863); p_lab[1]=Vec4D(361.775311201302,0,0,361.775311201302); p_lab[2]=Vec4D(708.63829206098,1.34777917018554,-12.2379486145275,-708.531329639077); p_lab[3]=Vec4D(361.826595505186,-1.34777917018554,12.2379486145275,361.617064475517); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4491, ta=151.6) * PDF(flb=G, xb=0.02565, tb=151.6) -> 0 type=none, B=80.74, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4491, x2=0.02565, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.391e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.2, \mu_f = 14.2. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.2 -> 'Alpha_QCD'{fac=1.395,cpl=0.118} \mu_F = 14.2 \mu_R = 14.2 } PDF(fla=G, xa=0.03611, ta=201.6) * PDF(flb=G, xb=0.0002644, tb=201.6) -> 6.832e+04 type=none, B=0.02675, VI=0, KP=0, K=0 muR2=201.6, muF2=201.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002644, x2=0.03611, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.832e+04, flux=0.0004092, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1827.4083773047 , PS = 0.000163932769733267 -> 0.299572116725333 p_lab[0]=Vec4D(144.447652889083,0,0,-144.447652889083); p_lab[1]=Vec4D(1.0574329553132,0,0,1.05743295531325); p_lab[2]=Vec4D(66.505104999416,11.8847381382224,-3.21510409929186,-65.3555284272107); p_lab[3]=Vec4D(78.9999808449806,-11.8847381382224,3.21510409929186,-78.0346915065594); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.0098, ta=153.5) * PDF(flb=G, xb=0.01939, tb=153.5) -> 1274 type=none, B=1.28, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0098, x2=0.01939, x1p=1, x2p=1 Cluster sequence: pdfwgt=1274, flux=2.056e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1630.82740017598 , PS = 1.44241697903738e-05 -> 0.0235233313189322 p_lab[0]=Vec4D(39.198086447917,0,0,39.198086447917); p_lab[1]=Vec4D(77.5434521681242,0,0,-77.5434521681242); p_lab[2]=Vec4D(77.0592633770445,12.311424894319,0.112747749172097,-76.0693511029857); p_lab[3]=Vec4D(39.6822752389967,-12.311424894319,-0.112747749172097,37.7239853827786); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.45, \mu_f = 12.45. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.45 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.45 \mu_R = 12.45 } PDF(fla=G, xa=0.05956, ta=155) * PDF(flb=G, xb=0.001804, tb=155) -> 1055 type=none, B=0.7013, VI=0, KP=0, K=0 muR2=155, muF2=155, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001804, x2=0.05956, x1p=1, x2p=1 Cluster sequence: pdfwgt=1055, flux=3.636e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 740.140880170629 , PS = 1.49598562450027e-05 -> 0.0110724011684023 p_lab[0]=Vec4D(238.224303364515,0,0,-238.224303364515); p_lab[1]=Vec4D(7.21470545553816,0,0,7.21470545553814); p_lab[2]=Vec4D(233.013228023554,4.89320284480822,11.2978077919108,-232.68773181879); p_lab[3]=Vec4D(12.4257807964999,-4.89320284480822,-11.2978077919108,1.67813390981295); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02869, ta=151.6) * PDF(flb=G, xb=0.6696, tb=151.6) -> 0 type=none, B=134.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02869, x2=0.6696, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.034e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.005171, ta=151.8) * PDF(flb=G, xb=0.2862, tb=151.8) -> 0 type=none, B=10.33, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005171, x2=0.2862, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.639e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.000405, ta=155.2) * PDF(flb=G, xb=0.2478, tb=155.2) -> 0 type=none, B=0.6517, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2478, x2=0.000405, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.893e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.2, \mu_f = 14.2. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.2 -> 'Alpha_QCD'{fac=1.395,cpl=0.118} \mu_F = 14.2 \mu_R = 14.2 } PDF(fla=G, xa=0.09674, ta=201.5) * PDF(flb=G, xb=9.879e-05, tb=201.5) -> 7623 type=none, B=0.02681, VI=0, KP=0, K=0 muR2=201.5, muF2=201.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09674, x2=9.879e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=7623, flux=0.0004088, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 204.348298448869 , PS = 0.000153702025011594 -> 0.0314087472792649 p_lab[0]=Vec4D(386.943063834543,0,0,386.943063834543); p_lab[1]=Vec4D(0.39516055687958,0,0,-0.395160556879567); p_lab[2]=Vec4D(175.706399329222,-12.1121755352899,-2.20886821375255,175.274512894079); p_lab[3]=Vec4D(211.631825062201,12.1121755352899,2.20886821375255,211.273390383585); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.0196, ta=151.9) * PDF(flb=G, xb=0.06755, tb=151.9) -> 11.88 type=none, B=9.233, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0196, x2=0.06755, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.88, flux=2.95e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 109.701533411763 , PS = 1.09133002962842e-05 -> 0.00119720577708542 p_lab[0]=Vec4D(78.4025936088277,0,0,78.4025936088277); p_lab[1]=Vec4D(270.184610204806,0,0,-270.184610204806); p_lab[2]=Vec4D(269.840902755055,-11.9927406231392,2.78533073969804,-269.559879998266); p_lab[3]=Vec4D(78.7463010585788,11.9927406231392,-2.78533073969804,77.7778634022877); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4406, ta=151.6) * PDF(flb=G, xb=0.01951, tb=151.6) -> 0 type=none, B=60.24, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4406, x2=0.01951, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.545e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2472, ta=151.6) * PDF(flb=G, xb=0.1573, tb=151.6) -> -8.694e-11 type=none, B=272.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1573, x2=0.2472, x1p=1, x2p=1 Cluster sequence: pdfwgt=-8.694e-11, flux=1.005e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -2.36992455482392e-08 , PS = 5.32944383729769e-06 -> -1.26303798135668e-13 p_lab[0]=Vec4D(988.6493501793,0,0,-988.649350179301); p_lab[1]=Vec4D(629.037960170381,0,0,629.037960170381); p_lab[2]=Vec4D(629.059874784942,-2.37255820887148,12.0811780273663,628.939378771486); p_lab[3]=Vec4D(988.62743556474,2.37255820887148,-12.0811780273663,-988.550768780406); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.8, \mu_f = 12.8. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.8 -> 'Alpha_QCD'{fac=1.427,cpl=0.118} \mu_F = 12.8 \mu_R = 12.8 } PDF(fla=G, xa=0.01492, ta=164) * PDF(flb=G, xb=0.002103, tb=164) -> 2.6e+04 type=none, B=0.1709, VI=0, KP=0, K=0 muR2=164, muF2=164, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002103, x2=0.01492, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.6e+04, flux=0.0001245, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4444.98719691825 , PS = 1.70973623916172e-05 -> 0.07599755693181 p_lab[0]=Vec4D(59.6753836660928,0,0,-59.6753836660928); p_lab[1]=Vec4D(8.41297627509062,0,0,8.4129762750906); p_lab[2]=Vec4D(12.6291801095801,7.71647433753078,-9.59374373128809,2.81288024217383); p_lab[3]=Vec4D(55.4591798316034,-7.71647433753078,9.59374373128809,-54.0752876331761); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.8382, ta=151.9) * PDF(flb=G, xb=0.001373, tb=151.9) -> 0 type=none, B=8.022, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001373, x2=0.8382, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.393e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.3784, ta=152.3) * PDF(flb=G, xb=0.001256, tb=152.3) -> 0 type=none, B=3.281, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001256, x2=0.3784, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.218e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.4831, ta=151.7) * PDF(flb=G, xb=0.00728, tb=151.7) -> 0 type=none, B=24.61, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00728, x2=0.4831, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.111e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.05502, ta=151.8) * PDF(flb=G, xb=0.03158, tb=151.8) -> 7.486 type=none, B=12.13, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03158, x2=0.05502, x1p=1, x2p=1 Cluster sequence: pdfwgt=7.486, flux=2.248e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 90.8376161240416 , PS = 1.04566571386089e-05 -> 0.000949857807097675 p_lab[0]=Vec4D(220.070481571573,0,0,-220.070481571573); p_lab[1]=Vec4D(126.326273477482,0,0,126.326273477483); p_lab[2]=Vec4D(219.942521271112,7.89153857584643,-9.45026528142614,-219.597652009557); p_lab[3]=Vec4D(126.454233777943,-7.89153857584643,9.45026528142614,125.853443915466); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.5411, ta=156.4) * PDF(flb=G, xb=0.0001415, tb=156.4) -> 0 type=none, B=0.4853, VI=0, KP=0, K=0 muR2=156.4, muF2=156.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001415, x2=0.5411, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.102e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.64, \mu_f = 12.64. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.64 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.64 \mu_R = 12.64 } PDF(fla=G, xa=0.1159, ta=159.9) * PDF(flb=G, xb=0.0003938, tb=159.9) -> 447.3 type=none, B=0.2696, VI=0, KP=0, K=0 muR2=159.9, muF2=159.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1159, x2=0.0003938, x1p=1, x2p=1 Cluster sequence: pdfwgt=447.3, flux=8.56e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 120.590363590798 , PS = 1.60474451453064e-05 -> 0.00193516724477588 p_lab[0]=Vec4D(463.497879347247,0,0,463.497879347247); p_lab[1]=Vec4D(1.57535487527295,0,0,-1.57535487527296); p_lab[2]=Vec4D(438.131090142415,-8.01190266443884,-9.34843894342571,437.958066776258); p_lab[3]=Vec4D(26.9421440801071,8.01190266443884,9.34843894342571,23.9644576957178); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01159, ta=151.6) * PDF(flb=G, xb=0.9441, tb=151.6) -> 0 type=none, B=76.69, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01159, x2=0.9441, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.57e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.05481, ta=152.3) * PDF(flb=G, xb=0.009286, tb=152.3) -> 100.4 type=none, B=3.517, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.009286, x2=0.05481, x1p=1, x2p=1 Cluster sequence: pdfwgt=100.4, flux=7.674e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 353.139828868732 , PS = 1.25600391813166e-05 -> 0.0044354500870747 p_lab[0]=Vec4D(219.25924199018,0,0,-219.25924199018); p_lab[1]=Vec4D(37.1457816796227,0,0,37.1457816796226); p_lab[2]=Vec4D(37.9971210070198,-11.1331573859655,5.25706206951406,35.9471460597181); p_lab[3]=Vec4D(218.407902662783,11.1331573859655,-5.25706206951406,-218.060606370276); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.02994, ta=153.1) * PDF(flb=G, xb=0.008233, tb=153.1) -> 608.8 type=none, B=1.676, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02994, x2=0.008233, x1p=1, x2p=1 Cluster sequence: pdfwgt=608.8, flux=1.585e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1020.25381031457 , PS = 1.39025008167611e-05 -> 0.0141840794312019 p_lab[0]=Vec4D(119.745288399374,0,0,119.745288399374); p_lab[1]=Vec4D(32.932522130943,0,0,-32.932522130943); p_lab[2]=Vec4D(118.902869399324,-9.06674806594771,-8.32934418138871,118.263724177828); p_lab[3]=Vec4D(33.774941130993,9.06674806594771,8.32934418138871,-31.4509579093967); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.09335, ta=151.7) * PDF(flb=G, xb=0.05052, tb=151.7) -> 0.2759 type=none, B=33.02, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09335, x2=0.05052, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.2759, flux=8.284e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 9.10921039960363 , PS = 8.79878194129683e-06 -> 8.01499559635057e-05 p_lab[0]=Vec4D(373.382730302021,0,0,373.382730302021); p_lab[1]=Vec4D(202.062232496338,0,0,-202.062232496338); p_lab[2]=Vec4D(373.296634628013,-8.11288101684193,-9.26094253248374,373.093545280023); p_lab[3]=Vec4D(202.148328170346,8.11288101684193,9.26094253248374,-201.773047474341); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.05881, ta=153.7) * PDF(flb=G, xb=0.002904, tb=153.7) -> 466.9 type=none, B=1.145, VI=0, KP=0, K=0 muR2=153.7, muF2=153.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05881, x2=0.002904, x1p=1, x2p=1 Cluster sequence: pdfwgt=466.9, flux=2.287e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 534.734253221766 , PS = 1.46037367490792e-05 -> 0.00780911826476612 p_lab[0]=Vec4D(235.222580789006,0,0,235.222580789006); p_lab[1]=Vec4D(11.6162998677212,0,0,-11.6162998677211); p_lab[2]=Vec4D(232.077130668211,-10.5390570253947,6.36491728138545,231.750319706805); p_lab[3]=Vec4D(14.7617499885163,10.5390570253947,-6.36491728138545,-8.14403878552037); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.09187, ta=151.6) * PDF(flb=G, xb=0.07138, tb=151.6) -> 0.1034 type=none, B=45.94, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07138, x2=0.09187, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1034, flux=5.957e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4.7493109175667 , PS = 8.25490640171782e-06 -> 3.92051170971697e-05 p_lab[0]=Vec4D(367.464521234837,0,0,-367.464521234837); p_lab[1]=Vec4D(285.504375781549,0,0,285.504375781549); p_lab[2]=Vec4D(367.434905359955,8.5730293784582,-8.83668842154646,-367.228574299299); p_lab[3]=Vec4D(285.533991656431,-8.5730293784582,8.83668842154646,285.268428846011); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.03354, ta=153.8) * PDF(flb=G, xb=0.004857, tb=153.8) -> 1176 type=none, B=1.09, VI=0, KP=0, K=0 muR2=153.8, muF2=153.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004857, x2=0.03354, x1p=1, x2p=1 Cluster sequence: pdfwgt=1176, flux=2.398e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1281.51695153141 , PS = 1.46645386357682e-05 -> 0.0187928548481243 p_lab[0]=Vec4D(134.146226459594,0,0,-134.146226459594); p_lab[1]=Vec4D(19.4279488133963,0,0,19.4279488133963); p_lab[2]=Vec4D(132.453145901151,8.45839044426509,-8.94648121194951,-131.879687458411); p_lab[3]=Vec4D(21.1210293718398,-8.45839044426509,8.94648121194951,17.1614098122129); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1467, ta=151.6) * PDF(flb=G, xb=0.2069, tb=151.6) -> -9.085e-07 type=none, B=212.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2069, x2=0.1467, x1p=1, x2p=1 Cluster sequence: pdfwgt=-9.085e-07, flux=1.287e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000193308435503316 , PS = 5.73606255644217e-06 -> -1.10882927873499e-09 p_lab[0]=Vec4D(586.639884109321,0,0,-586.639884109321); p_lab[1]=Vec4D(827.543239999556,0,0,827.543239999556); p_lab[2]=Vec4D(586.658690590531,-3.30751886521387,11.8593513287892,-586.52948378612); p_lab[3]=Vec4D(827.524433518346,3.30751886521387,-11.8593513287892,827.432839676355); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01428, ta=151.9) * PDF(flb=G, xb=0.08923, tb=151.9) -> 6.808 type=none, B=8.884, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08923, x2=0.01428, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.808, flux=3.066e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 60.4805830950627 , PS = 1.09780417801573e-05 -> 0.000663958368105874 p_lab[0]=Vec4D(57.1134240495736,0,0,-57.1134240495736); p_lab[1]=Vec4D(356.9332214837,0,0,356.9332214837); p_lab[2]=Vec4D(57.6718142661414,-7.51730351862397,-9.7505919200982,-56.3422955315534); p_lab[3]=Vec4D(356.374831267132,7.51730351862397,9.7505919200982,356.162092965679); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.1579, ta=154.2) * PDF(flb=G, xb=0.0008997, tb=154.2) -> 18.31 type=none, B=0.9439, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0008997, x2=0.1579, x1p=1, x2p=1 Cluster sequence: pdfwgt=18.31, flux=2.75e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 17.2848356757625 , PS = 1.47864855550239e-05 -> 0.000255581973040624 p_lab[0]=Vec4D(631.603629971541,0,0,-631.603629971541); p_lab[1]=Vec4D(3.59877941012489,0,0,3.59877941012491); p_lab[2]=Vec4D(620.952762814064,-1.45354618571794,12.2258373320352,-620.830693306506); p_lab[3]=Vec4D(14.2496465676037,1.45354618571794,-12.2258373320352,-7.17415725491285); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.33, \mu_f = 13.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.33 -> 'Alpha_QCD'{fac=1.414,cpl=0.118} \mu_F = 13.33 \mu_R = 13.33 } PDF(fla=G, xa=0.000612, ta=177.7) * PDF(flb=G, xb=0.0263, tb=177.7) -> 4.644e+04 type=none, B=0.06762, VI=0, KP=0, K=0 muR2=177.7, muF2=177.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.000612, x2=0.0263, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.644e+04, flux=0.0002427, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3140.54502962738 , PS = 2.22725539731498e-05 -> 0.0699479586774832 p_lab[0]=Vec4D(2.44785948240242,0,0,2.44785948240242); p_lab[1]=Vec4D(105.199290845343,0,0,-105.199290845343); p_lab[2]=Vec4D(86.77438218132,-8.9058653063124,8.50114451878227,-85.8965046318323); p_lab[3]=Vec4D(20.8727681464252,8.9058653063124,-8.50114451878227,-16.8549267311081); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1788, ta=151.7) * PDF(flb=G, xb=0.0207, tb=151.7) -> 0.0009419 type=none, B=25.91, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1788, x2=0.0207, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0009419, flux=1.055e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0244030100896861 , PS = 9.19903661268048e-06 -> 2.24484183274634e-07 p_lab[0]=Vec4D(715.087974008596,0,0,715.087974008596); p_lab[1]=Vec4D(82.8170359658975,0,0,-82.8170359658976); p_lab[2]=Vec4D(714.683122924069,-12.2736611809593,-0.970121744119163,714.577065331316); p_lab[3]=Vec4D(83.2218870504244,12.2736611809593,0.970121744119163,-82.3061272886181); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.006356, ta=154.2) * PDF(flb=G, xb=0.02207, tb=154.2) -> 1944 type=none, B=0.9316, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02207, x2=0.006356, x1p=1, x2p=1 Cluster sequence: pdfwgt=1944, flux=2.784e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1810.91780828221 , PS = 1.47931299094628e-05 -> 0.0267891423932784 p_lab[0]=Vec4D(25.424977995462,0,0,-25.424977995462); p_lab[1]=Vec4D(88.2906390314306,0,0,88.2906390314306); p_lab[2]=Vec4D(26.5048093029498,-9.94845453123588,7.25342315209398,-23.4717068233721); p_lab[3]=Vec4D(87.2108077239428,9.94845453123588,-7.25342315209398,86.3373678593408); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1108, ta=151.6) * PDF(flb=G, xb=0.09974, tb=151.6) -> 0.01092 type=none, B=77.43, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09974, x2=0.1108, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01092, flux=3.536e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.845803971563318 , PS = 7.39630771327425e-06 -> 6.25582643879176e-06 p_lab[0]=Vec4D(443.002887398473,0,0,-443.002887398473); p_lab[1]=Vec4D(398.962679723324,0,0,398.962679723324); p_lab[2]=Vec4D(442.99344251185,-8.41480588282112,-8.98748779903704,-442.822319010138); p_lab[3]=Vec4D(398.972124609947,8.41480588282112,8.98748779903704,398.782111334989); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01288, ta=151.7) * PDF(flb=G, xb=0.181, tb=151.7) -> -0.0003907 type=none, B=16.3, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.181, x2=0.01288, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0003907, flux=1.676e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00636745887612356 , PS = 9.96611177579825e-06 -> -6.34588068872461e-08 p_lab[0]=Vec4D(51.5307947927715,0,0,-51.5307947927715); p_lab[1]=Vec4D(723.825343067923,0,0,723.825343067923); p_lab[2]=Vec4D(723.141598403311,-2.37365559908531,12.0809624649831,723.036781530727); p_lab[3]=Vec4D(52.2145394573833,2.37365559908531,-12.0809624649831,-50.7422332555755); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03122, ta=151.7) * PDF(flb=G, xb=0.1091, tb=151.7) -> 0.4628 type=none, B=23.84, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1091, x2=0.03122, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.4628, flux=1.147e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 11.0347015309008 , PS = 9.33628016347385e-06 -> 0.000103023065012804 p_lab[0]=Vec4D(124.884801447618,0,0,-124.884801447618); p_lab[1]=Vec4D(436.480473069595,0,0,436.480473069595); p_lab[2]=Vec4D(436.263696508163,2.26970331175126,12.1009231821389,436.089932234148); p_lab[3]=Vec4D(125.101578009049,-2.26970331175126,-12.1009231821389,-124.49426061217); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04541, ta=151.6) * PDF(flb=G, xb=0.2097, tb=151.6) -> -0.0002423 type=none, B=66.73, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04541, x2=0.2097, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0002423, flux=4.103e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0161670690879982 , PS = 7.64084615681938e-06 -> -1.23530087708064e-07 p_lab[0]=Vec4D(181.646558699214,0,0,181.646558699214); p_lab[1]=Vec4D(838.600568769798,0,0,-838.600568769798); p_lab[2]=Vec4D(838.437092848139,11.6105374373733,-4.0962562662453,-838.346691273161); p_lab[3]=Vec4D(181.810034620872,-11.6105374373733,4.0962562662453,181.392681202576); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2313, ta=151.6) * PDF(flb=G, xb=0.1468, tb=151.6) -> 0 type=none, B=238.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2313, x2=0.1468, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.15e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05649, ta=151.6) * PDF(flb=G, xb=0.2857, tb=151.6) -> 0 type=none, B=113.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05649, x2=0.2857, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.42e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.71, \mu_f = 12.71. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.71 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.71 \mu_R = 12.71 } PDF(fla=G, xa=0.06754, ta=161.6) * PDF(flb=G, xb=0.0005636, tb=161.6) -> 3697 type=none, B=0.2171, VI=0, KP=0, K=0 muR2=161.6, muF2=161.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005636, x2=0.06754, x1p=1, x2p=1 Cluster sequence: pdfwgt=3697, flux=0.0001026, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 802.714697663901 , PS = 1.64824631591266e-05 -> 0.0132307154315347 p_lab[0]=Vec4D(270.167712506909,0,0,-270.167712506909); p_lab[1]=Vec4D(2.25443726328981,0,0,2.25443726328979); p_lab[2]=Vec4D(252.307892474467,12.2825568389086,0.850113217388994,-252.007318762618); p_lab[3]=Vec4D(20.1142572957321,-12.2825568389086,-0.850113217388994,-15.9059564810014); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.00186, ta=151.8) * PDF(flb=G, xb=0.819, tb=151.8) -> 0 type=none, B=10.63, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.819, x2=0.00186, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.564e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02343, ta=151.6) * PDF(flb=G, xb=0.6303, tb=151.6) -> 0 type=none, B=103.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02343, x2=0.6303, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.645e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.4058, ta=152.2) * PDF(flb=G, xb=0.001551, tb=152.2) -> 0 type=none, B=4.361, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4058, x2=0.001551, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.207e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.06083, ta=151.9) * PDF(flb=G, xb=0.0215, tb=151.9) -> 12.55 type=none, B=9.119, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06083, x2=0.0215, x1p=1, x2p=1 Cluster sequence: pdfwgt=12.55, flux=2.987e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 114.442556796002 , PS = 1.09341441302822e-05 -> 0.00125133141064549 p_lab[0]=Vec4D(243.316058240271,0,0,243.316058240271); p_lab[1]=Vec4D(85.990887344386,0,0,-85.990887344386); p_lab[2]=Vec4D(86.2763549461164,2.05703901737165,-12.1388832049909,-85.3933576328092); p_lab[3]=Vec4D(243.03059063854,-2.05703901737165,12.1388832049909,242.718528528694); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.75, \mu_f = 12.75. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.75 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.75 \mu_R = 12.75 } PDF(fla=G, xa=0.0004617, ta=162.5) * PDF(flb=G, xb=0.07666, tb=162.5) -> 3121 type=none, B=0.1986, VI=0, KP=0, K=0 muR2=162.5, muF2=162.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004617, x2=0.07666, x1p=1, x2p=1 Cluster sequence: pdfwgt=3121, flux=0.0001104, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 619.988599093762 , PS = 1.66926709592665e-05 -> 0.0103492656831688 p_lab[0]=Vec4D(1.84671318107801,0,0,1.84671318107795); p_lab[1]=Vec4D(306.653653560931,0,0,-306.653653560931); p_lab[2]=Vec4D(284.671089717044,11.6040314389887,4.11465057402956,-284.404721173377); p_lab[3]=Vec4D(23.8292770249656,-11.6040314389887,-4.11465057402956,-20.4022192064774); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.94, \mu_f = 13.94. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.94 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.94 \mu_R = 13.94 } PDF(fla=G, xa=0.007882, ta=194.4) * PDF(flb=G, xb=0.001364, tb=194.4) -> 1.571e+05 type=none, B=0.03383, VI=0, KP=0, K=0 muR2=194.4, muF2=194.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007882, x2=0.001364, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.571e+05, flux=0.0003634, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5314.31660838675 , PS = 4.14886334828212e-05 -> 0.220483733977027 p_lab[0]=Vec4D(31.5267047710023,0,0,31.5267047710023); p_lab[1]=Vec4D(5.45476867510568,0,0,-5.45476867510568); p_lab[2]=Vec4D(14.002328518916,-6.53353986421579,-10.4353606466717,6.66943093286445); p_lab[3]=Vec4D(22.979144927192,6.53353986421579,10.4353606466717,19.4025051630322); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1721, ta=151.7) * PDF(flb=G, xb=0.02745, tb=151.7) -> 0.01645 type=none, B=33.08, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02745, x2=0.1721, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.01645, flux=8.27e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.543984657018699 , PS = 8.79606498624462e-06 -> 4.78492439465646e-06 p_lab[0]=Vec4D(688.291024364431,0,0,-688.291024364431); p_lab[1]=Vec4D(109.794809042022,0,0,109.794809042022); p_lab[2]=Vec4D(110.085049282832,-12.2861983705568,0.795754096896756,109.394397391366); p_lab[3]=Vec4D(688.00078412362,12.2861983705568,-0.795754096896756,-687.890612713775); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.6, \mu_f = 13.6. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.6 -> 'Alpha_QCD'{fac=1.408,cpl=0.118} \mu_F = 13.6 \mu_R = 13.6 } PDF(fla=G, xa=0.002533, ta=184.9) * PDF(flb=G, xb=0.005188, tb=184.9) -> 1.258e+05 type=none, B=0.04861, VI=0, KP=0, K=0 muR2=184.9, muF2=184.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005188, x2=0.002533, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.258e+05, flux=0.0002972, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6116.44578758049 , PS = 2.70409797319826e-05 -> 0.165394686573734 p_lab[0]=Vec4D(10.1325109697282,0,0,-10.1325109697282); p_lab[1]=Vec4D(20.7511541176038,0,0,20.7511541176038); p_lab[2]=Vec4D(12.6370783980271,-5.15106185696553,11.1825961533588,-2.84813192364461); p_lab[3]=Vec4D(18.2465866893049,5.15106185696553,-11.1825961533588,13.4667750715202); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07477, ta=151.6) * PDF(flb=G, xb=0.3357, tb=151.6) -> 0 type=none, B=176, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07477, x2=0.3357, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.556e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.8406, ta=153.1) * PDF(flb=G, xb=0.00029, tb=153.1) -> 0 type=none, B=1.657, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00029, x2=0.8406, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.602e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01541, ta=151.8) * PDF(flb=G, xb=0.1105, tb=151.8) -> 2.694 type=none, B=11.89, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01541, x2=0.1105, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.694, flux=2.293e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 32.046213101103 , PS = 1.04899854758593e-05 -> 0.000336164309986861 p_lab[0]=Vec4D(61.6399463269061,0,0,61.639946326906); p_lab[1]=Vec4D(442.128705211105,0,0,-442.128705211105); p_lab[2]=Vec4D(62.1697672470734,-8.7829310007952,-8.62809469226382,60.9384612914691); p_lab[3]=Vec4D(441.598884290938,8.7829310007952,8.62809469226382,-441.427220175668); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3018, ta=151.6) * PDF(flb=G, xb=0.03604, tb=151.6) -> 0 type=none, B=76.25, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03604, x2=0.3018, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.591e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.008238, ta=152.4) * PDF(flb=G, xb=0.05265, tb=152.4) -> 125.6 type=none, B=2.989, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05265, x2=0.008238, x1p=1, x2p=1 Cluster sequence: pdfwgt=125.6, flux=9.006e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 375.296325329924 , PS = 1.28463523011621e-05 -> 0.00482118881251975 p_lab[0]=Vec4D(32.9509440334258,0,0,-32.9509440334257); p_lab[1]=Vec4D(210.609259384726,0,0,210.609259384726); p_lab[2]=Vec4D(209.63376561187,12.166900379881,1.88425850918938,209.27190874465); p_lab[3]=Vec4D(33.9264378062812,-12.166900379881,-1.88425850918938,-31.6135933933501); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.192, ta=151.6) * PDF(flb=G, xb=0.07748, tb=151.6) -> 3.998e-05 type=none, B=104.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07748, x2=0.192, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.998e-05, flux=2.626e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.00416993797028383 , PS = 6.90697968517348e-06 -> 2.88016768491839e-08 p_lab[0]=Vec4D(767.976413262917,0,0,-767.976413262917); p_lab[1]=Vec4D(309.917869827522,0,0,309.917869827522); p_lab[2]=Vec4D(767.903469405913,6.98414456198834,-10.1393106136783,-767.804763224776); p_lab[3]=Vec4D(309.990813684526,-6.98414456198834,10.1393106136783,309.74621978938); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03563, ta=151.7) * PDF(flb=G, xb=0.1117, tb=151.7) -> 0.3654 type=none, B=27.88, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03563, x2=0.1117, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3654, flux=9.81e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 10.1850275017575 , PS = 9.07820378540547e-06 -> 9.24617552209138e-05 p_lab[0]=Vec4D(142.535865988657,0,0,142.535865988657); p_lab[1]=Vec4D(446.970269821465,0,0,-446.970269821465); p_lab[2]=Vec4D(446.789076341585,6.30815785072341,-10.5731281801441,-446.619407150185); p_lab[3]=Vec4D(142.717059468537,-6.30815785072341,10.5731281801441,142.185003317377); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.009608, ta=160.5) * PDF(flb=G, xb=0.004432, tb=160.5) -> 1.864e+04 type=none, B=0.2484, VI=0, KP=0, K=0 muR2=160.5, muF2=160.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004432, x2=0.009608, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.864e+04, flux=9.173e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4631.5916666544 , PS = 1.62001669207818e-05 -> 0.0750325581087033 p_lab[0]=Vec4D(38.4321538044914,0,0,-38.4321538044914); p_lab[1]=Vec4D(17.7291433346255,0,0,17.7291433346255); p_lab[2]=Vec4D(18.9529307074906,5.93795987410737,10.7853849035114,14.4093611037942); p_lab[3]=Vec4D(37.2083664316264,-5.93795987410737,-10.7853849035114,-35.1123715736602); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1557, ta=151.6) * PDF(flb=G, xb=0.079, tb=151.6) -> 0.001206 type=none, B=86.24, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1557, x2=0.079, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.001206, flux=3.175e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.104022862350334 , PS = 7.21913227307376e-06 -> 7.50954802730808e-07 p_lab[0]=Vec4D(622.900066127691,0,0,622.900066127691); p_lab[1]=Vec4D(316.017111110478,0,0,-316.017111110478); p_lab[2]=Vec4D(622.840975242628,-3.12515689310966,-11.9087064527114,622.719275874936); p_lab[3]=Vec4D(316.076201995541,3.12515689310966,11.9087064527114,-315.836320857723); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.77, \mu_f = 12.77. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.77 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.77 \mu_R = 12.77 } PDF(fla=G, xa=0.1026, ta=163) * PDF(flb=G, xb=0.0003287, tb=163) -> 1517 type=none, B=0.1872, VI=0, KP=0, K=0 muR2=163, muF2=163, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0003287, x2=0.1026, x1p=1, x2p=1 Cluster sequence: pdfwgt=1517, flux=0.0001158, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 283.972999885728 , PS = 1.68449675556424e-05 -> 0.00478351596975352 p_lab[0]=Vec4D(410.501899668896,0,0,-410.501899668895); p_lab[1]=Vec4D(1.31478457757309,0,0,1.31478457757303); p_lab[2]=Vec4D(32.4081475817247,-11.6795929477687,-3.8949972474743,-29.9783944649384); p_lab[3]=Vec4D(379.408536664743,11.6795929477687,3.8949972474743,-379.208720626383); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.35, \mu_f = 13.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.35 -> 'Alpha_QCD'{fac=1.414,cpl=0.118} \mu_F = 13.35 \mu_R = 13.35 } PDF(fla=G, xa=0.0139, ta=178.3) * PDF(flb=G, xb=0.001138, tb=178.3) -> 7.404e+04 type=none, B=0.06584, VI=0, KP=0, K=0 muR2=178.3, muF2=178.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001138, x2=0.0139, x1p=1, x2p=1 Cluster sequence: pdfwgt=7.404e+04, flux=0.0002469, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4874.97667719097 , PS = 2.25518817706901e-05 -> 0.109939897658882 p_lab[0]=Vec4D(55.5980706513016,0,0,-55.5980706513016); p_lab[1]=Vec4D(4.55335565749296,0,0,4.55335565749295); p_lab[2]=Vec4D(46.242220071806,2.44918960801591,12.0658760663032,-44.5730750811062); p_lab[3]=Vec4D(13.9092062369887,-2.44918960801591,-12.0658760663032,-6.47163991270248); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.04965, ta=152.2) * PDF(flb=G, xb=0.01281, tb=152.2) -> 74.64 type=none, B=4.409, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01281, x2=0.04965, x1p=1, x2p=1 Cluster sequence: pdfwgt=74.64, flux=6.14e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 329.094613184271 , PS = 1.21677758526509e-05 -> 0.00400434948754106 p_lab[0]=Vec4D(198.600098360743,0,0,-198.600098360743); p_lab[1]=Vec4D(51.2507693444974,0,0,51.2507693444974); p_lab[2]=Vec4D(198.04943339821,10.118624008972,-7.01408177514753,-197.666370873674); p_lab[3]=Vec4D(51.8014343070302,-10.118624008972,7.01408177514753,50.317041857428); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.57, \mu_f = 12.57. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.57 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.57 \mu_R = 12.57 } PDF(fla=G, xa=0.005635, ta=158) * PDF(flb=G, xb=0.01028, tb=158) -> 1.106e+04 type=none, B=0.3551, VI=0, KP=0, K=0 muR2=158, muF2=158, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01028, x2=0.005635, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.106e+04, flux=6.745e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3925.87782804275 , PS = 1.56194474151283e-05 -> 0.061320042293332 p_lab[0]=Vec4D(22.5391196524841,0,0,-22.5391196524841); p_lab[1]=Vec4D(41.1139489925114,0,0,41.1139489925114); p_lab[2]=Vec4D(23.3326300497393,9.58470431161579,7.72769941459257,-19.8198821907346); p_lab[3]=Vec4D(40.3204385952561,-9.58470431161579,-7.72769941459257,38.3947115307619); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.0004016, ta=155.3) * PDF(flb=G, xb=0.2479, tb=155.3) -> 0.0003261 type=none, B=0.646, VI=0, KP=0, K=0 muR2=155.3, muF2=155.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0004016, x2=0.2479, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0003261, flux=3.925e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.000210691388533239 , PS = 1.50175559977032e-05 -> 3.16406972553174e-09 p_lab[0]=Vec4D(1.60624743060266,0,0,1.60624743060249); p_lab[1]=Vec4D(991.411051358487,0,0,-991.411051358487); p_lab[2]=Vec4D(25.7498002618947,-4.59972588743488,11.4204385530444,-22.6156653349857); p_lab[3]=Vec4D(967.267498527215,4.59972588743488,-11.4204385530444,-967.189138592919); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06295, ta=151.6) * PDF(flb=G, xb=0.6659, tb=151.6) -> 0 type=none, B=294, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06295, x2=0.6659, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.318e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.00161, ta=151.9) * PDF(flb=G, xb=0.6257, tb=151.9) -> 0 type=none, B=7.014, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6257, x2=0.00161, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.877e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1697, ta=151.6) * PDF(flb=G, xb=0.05009, tb=151.6) -> 0.003955 type=none, B=59.59, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05009, x2=0.1697, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.003955, flux=4.594e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.235669005460335 , PS = 7.82694587115678e-06 -> 1.8445685492474e-06 p_lab[0]=Vec4D(678.987590242409,0,0,-678.987590242409); p_lab[1]=Vec4D(200.360656346057,0,0,200.360656346057); p_lab[2]=Vec4D(678.854226753002,-8.86040229082047,8.54851836450177,-678.742570703675); p_lab[3]=Vec4D(200.494019835464,8.86040229082047,-8.54851836450177,200.115636807322); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.59, \mu_f = 12.59. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.59 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.59 \mu_R = 12.59 } PDF(fla=G, xa=0.3055, ta=158.4) * PDF(flb=G, xb=0.0001792, tb=158.4) -> 0 type=none, B=0.333, VI=0, KP=0, K=0 muR2=158.4, muF2=158.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001792, x2=0.3055, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.136e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.9, \mu_f = 12.9. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.9 -> 'Alpha_QCD'{fac=1.425,cpl=0.118} \mu_F = 12.9 \mu_R = 12.9 } PDF(fla=G, xa=0.002446, ta=166.4) * PDF(flb=G, xb=0.01089, tb=166.4) -> 3.657e+04 type=none, B=0.1384, VI=0, KP=0, K=0 muR2=166.4, muF2=166.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01089, x2=0.002446, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.657e+04, flux=0.0001467, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5059.24498120086 , PS = 1.77980000403703e-05 -> 0.0900444423796563 p_lab[0]=Vec4D(9.78360135927688,0,0,-9.78360135927688); p_lab[1]=Vec4D(43.5447856027469,0,0,43.5447856027468); p_lab[2]=Vec4D(13.1155859115574,12.2754621332624,-0.947060926362113,-4.52047550817855); p_lab[3]=Vec4D(40.2128010504663,-12.2754621332624,0.947060926362113,38.2816597516485); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.03058, ta=154.5) * PDF(flb=G, xb=0.004101, tb=154.5) -> 1937 type=none, B=0.8272, VI=0, KP=0, K=0 muR2=154.5, muF2=154.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004101, x2=0.03058, x1p=1, x2p=1 Cluster sequence: pdfwgt=1937, flux=3.115e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1602.69222385588 , PS = 1.4857158679921e-05 -> 0.0238114526849024 p_lab[0]=Vec4D(122.316684160535,0,0,-122.316684160535); p_lab[1]=Vec4D(16.4040244688767,0,0,16.4040244688767); p_lab[2]=Vec4D(18.4436473850916,-12.1520305763093,-1.97788974815209,13.7325974921788); p_lab[3]=Vec4D(120.27706124432,12.1520305763093,1.97788974815209,-119.645257183837); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.03037, ta=153.9) * PDF(flb=G, xb=0.005228, tb=153.9) -> 1245 type=none, B=1.061, VI=0, KP=0, K=0 muR2=153.9, muF2=153.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03037, x2=0.005228, x1p=1, x2p=1 Cluster sequence: pdfwgt=1245, flux=2.46e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1321.00173563069 , PS = 1.46979404221316e-05 -> 0.0194160048078323 p_lab[0]=Vec4D(121.483009257323,0,0,121.483009257323); p_lab[1]=Vec4D(20.9110671386791,0,0,-20.9110671386791); p_lab[2]=Vec4D(22.4344420863057,-7.51858644334224,9.74960270356648,-18.7542074410091); p_lab[3]=Vec4D(119.959634309697,7.51858644334224,-9.74960270356648,119.326149559654); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.6537, ta=151.7) * PDF(flb=G, xb=0.005401, tb=151.7) -> 0 type=none, B=24.71, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6537, x2=0.005401, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.106e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.025, ta=152.4) * PDF(flb=G, xb=0.01847, tb=152.4) -> 211.6 type=none, B=3.186, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01847, x2=0.025, x1p=1, x2p=1 Cluster sequence: pdfwgt=211.6, flux=8.458e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 674.371033770555 , PS = 1.27335301992607e-05 -> 0.008587123924024 p_lab[0]=Vec4D(99.9965859891287,0,0,-99.9965859891287); p_lab[1]=Vec4D(73.8974196554534,0,0,73.8974196554534); p_lab[2]=Vec4D(99.8620464891944,-9.00838513402557,8.39243065270531,-99.1001737335845); p_lab[3]=Vec4D(74.0319591553877,9.00838513402557,-8.39243065270531,73.0010073999092); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.003816, ta=152) * PDF(flb=G, xb=0.2375, tb=152) -> -0.00334 type=none, B=6.304, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003816, x2=0.2375, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.00334, flux=4.31e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0210531592013568 , PS = 1.15566628344532e-05 -> -2.43304262490146e-07 p_lab[0]=Vec4D(15.2632498183617,0,0,15.2632498183615); p_lab[1]=Vec4D(950.031621941335,0,0,-950.031621941335); p_lab[2]=Vec4D(17.7126033421612,7.16890282504662,10.0095318206417,12.7339083620599); p_lab[3]=Vec4D(947.582268417535,-7.16890282504662,-10.0095318206417,-947.502280485033); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04182, ta=151.6) * PDF(flb=G, xb=0.183, tb=151.6) -> 0.001648 type=none, B=53.63, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04182, x2=0.183, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.001648, flux=5.104e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0883737941172949 , PS = 8.00033303615921e-06 -> 7.07019784607327e-07 p_lab[0]=Vec4D(167.270834484907,0,0,167.270834484907); p_lab[1]=Vec4D(732.014019544685,0,0,-732.014019544685); p_lab[2]=Vec4D(167.445673729641,-12.2919173260931,-0.701899873125544,166.9924242467); p_lab[3]=Vec4D(731.839180299952,12.2919173260931,0.701899873125544,-731.735609306477); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1567, ta=151.6) * PDF(flb=G, xb=0.05669, tb=151.6) -> 0.007519 type=none, B=62.27, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05669, x2=0.1567, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.007519, flux=4.396e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.468218158094544 , PS = 7.75438197934154e-06 -> 3.63074244752882e-06 p_lab[0]=Vec4D(626.9860688281,0,0,-626.9860688281); p_lab[1]=Vec4D(226.757795702608,0,0,226.757795702608); p_lab[2]=Vec4D(226.864503590546,-4.3874622769299,11.5036546258968,226.530172591647); p_lab[3]=Vec4D(626.879360940163,4.3874622769299,-11.5036546258968,-626.758445717138); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.01429, ta=155.8) * PDF(flb=G, xb=0.006173, tb=155.8) -> 5228 type=none, B=0.5669, VI=0, KP=0, K=0 muR2=155.8, muF2=155.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006173, x2=0.01429, x1p=1, x2p=1 Cluster sequence: pdfwgt=5228, flux=4.427e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2963.81782720843 , PS = 1.51197426948566e-05 -> 0.0448121629418206 p_lab[0]=Vec4D(57.1719589533687,0,0,-57.1719589533687); p_lab[1]=Vec4D(24.691906898523,0,0,24.691906898523); p_lab[2]=Vec4D(25.588571642154,1.17081748047482,12.2561446389481,22.4319215338822); p_lab[3]=Vec4D(56.2752942097378,-1.17081748047482,-12.2561446389481,-54.9119735887279); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.0349, ta=151.6) * PDF(flb=G, xb=0.7449, tb=151.6) -> 0 type=none, B=182.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7449, x2=0.0349, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.503e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.5674, ta=152.8) * PDF(flb=G, xb=0.0005121, tb=152.8) -> 0 type=none, B=1.985, VI=0, KP=0, K=0 muR2=152.8, muF2=152.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5674, x2=0.0005121, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.344e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.37, \mu_f = 13.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.37 -> 'Alpha_QCD'{fac=1.413,cpl=0.118} \mu_F = 13.37 \mu_R = 13.37 } PDF(fla=G, xa=5.722e-05, ta=178.7) * PDF(flb=G, xb=0.2726, tb=178.7) -> 0 type=none, B=0.06439, VI=0, KP=0, K=0 muR2=178.7, muF2=178.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2726, x2=5.722e-05, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=0.0002504, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.8932, ta=152.1) * PDF(flb=G, xb=0.0007257, tb=152.1) -> 0 type=none, B=4.493, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007257, x2=0.8932, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.026e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.4091, ta=151.7) * PDF(flb=G, xb=0.01004, tb=151.7) -> 0 type=none, B=28.75, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4091, x2=0.01004, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.512e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3712, ta=151.6) * PDF(flb=G, xb=0.01729, tb=151.6) -> 0 type=none, B=44.95, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3712, x2=0.01729, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.088e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.004273, ta=152.3) * PDF(flb=G, xb=0.115, tb=152.3) -> 14.81 type=none, B=3.392, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.115, x2=0.004273, x1p=1, x2p=1 Cluster sequence: pdfwgt=14.81, flux=7.953e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 50.2365309411799 , PS = 1.26235523091476e-05 -> 0.000634163476166099 p_lab[0]=Vec4D(17.0914554005307,0,0,-17.0914554005306); p_lab[1]=Vec4D(459.808112093103,0,0,459.808112093103); p_lab[2]=Vec4D(19.2366800931057,-4.5938252716172,11.4228133293533,-14.7805942377527); p_lab[3]=Vec4D(457.662887400528,4.5938252716172,-11.4228133293533,457.497250930325); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1242, ta=151.6) * PDF(flb=G, xb=0.07407, tb=151.6) -> 0.02028 type=none, B=64.49, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07407, x2=0.1242, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.02028, flux=4.245e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1.3078439301755 , PS = 7.69684946313328e-06 -> 1.00662778518334e-05 p_lab[0]=Vec4D(496.95392900152,0,0,-496.95392900152); p_lab[1]=Vec4D(296.268844906013,0,0,296.268844906013); p_lab[2]=Vec4D(296.320512457255,11.1462004092267,-5.22935095597491,296.064625053293); p_lab[3]=Vec4D(496.902261450278,-11.1462004092267,5.22935095597491,-496.7497091488); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.1474, ta=152.7) * PDF(flb=G, xb=0.002119, tb=152.7) -> 10.71 type=none, B=2.139, VI=0, KP=0, K=0 muR2=152.7, muF2=152.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002119, x2=0.1474, x1p=1, x2p=1 Cluster sequence: pdfwgt=10.71, flux=1.25e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 22.908817898357 , PS = 1.34489433962943e-05 -> 0.000308099395191016 p_lab[0]=Vec4D(589.696579900905,0,0,-589.696579900905); p_lab[1]=Vec4D(8.4775230316298,0,0,8.47752303162974); p_lab[2]=Vec4D(585.256757912375,-9.214786861192,8.16526779023223,-585.127241535652); p_lab[3]=Vec4D(12.9173450201614,9.214786861192,-8.16526779023223,3.90818466637485); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.1742, ta=151.6) * PDF(flb=G, xb=0.1007, tb=151.6) -> 0.0001872 type=none, B=123, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1007, x2=0.1742, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0001872, flux=2.226e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0230275045919365 , PS = 6.63555218290721e-06 -> 1.5280020836193e-07 p_lab[0]=Vec4D(696.978261985483,0,0,-696.978261985483); p_lab[1]=Vec4D(402.816637732254,0,0,402.816637732254); p_lab[2]=Vec4D(402.856348756159,-11.6851838911596,-3.87819189999469,402.668168394474); p_lab[3]=Vec4D(696.938550961578,11.6851838911596,3.87819189999469,-696.829792647703); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.004716, ta=152) * PDF(flb=G, xb=0.1703, tb=152) -> 0.563 type=none, B=5.581, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004716, x2=0.1703, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.563, flux=4.863e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.14228509871734 , PS = 1.17635955297566e-05 -> 3.6964570940492e-05 p_lab[0]=Vec4D(18.8638854462048,0,0,18.8638854462049); p_lab[1]=Vec4D(681.347898307142,0,0,-681.347898307142); p_lab[2]=Vec4D(20.8229763851642,-12.2992673896522,-0.558494996610074,16.7932263294969); p_lab[3]=Vec4D(679.388807368182,12.2992673896522,0.558494996610074,-679.277239190434); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.001392, ta=152.5) * PDF(flb=G, xb=0.285, tb=152.5) -> 0 type=none, B=2.73, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001392, x2=0.285, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.844e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.11, \mu_f = 14.11. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.11 -> 'Alpha_QCD'{fac=1.397,cpl=0.118} \mu_F = 14.11 \mu_R = 14.11 } PDF(fla=G, xa=0.0001379, ta=199) * PDF(flb=G, xb=0.0721, tb=199) -> 2.024e+04 type=none, B=0.02904, VI=0, KP=0, K=0 muR2=199, muF2=199, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001379, x2=0.0721, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.024e+04, flux=0.000393, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 587.67083009935 , PS = 6.59582137768612e-05 -> 0.0387617182421184 p_lab[0]=Vec4D(0.551441863839835,0,0,0.551441863839873); p_lab[1]=Vec4D(288.414513799554,0,0,-288.414513799554); p_lab[2]=Vec4D(175.655020706751,11.0758044392774,-5.37684396335653,-175.223007634573); p_lab[3]=Vec4D(113.310934956642,-11.0758044392774,5.37684396335653,-112.64006430114); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.01041, ta=152.6) * PDF(flb=G, xb=0.03418, tb=152.6) -> 287.3 type=none, B=2.443, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03418, x2=0.01041, x1p=1, x2p=1 Cluster sequence: pdfwgt=287.3, flux=1.098e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 701.628685450332 , PS = 1.32073351860665e-05 -> 0.00926664522490176 p_lab[0]=Vec4D(41.6346252387403,0,0,-41.6346252387403); p_lab[1]=Vec4D(136.729813909625,0,0,136.729813909625); p_lab[2]=Vec4D(136.092498951213,-10.8853940093216,-5.75257266318517,135.534439814398); p_lab[3]=Vec4D(42.2719401971516,10.8853940093216,5.75257266318517,-40.4392511435135); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.09311, ta=151.6) * PDF(flb=G, xb=0.2156, tb=151.6) -> -4.51e-06 type=none, B=140.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2156, x2=0.09311, x1p=1, x2p=1 Cluster sequence: pdfwgt=-4.51e-06, flux=1.946e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000634950938242517 , PS = 6.41427236959519e-06 -> -4.07274825921752e-09 p_lab[0]=Vec4D(372.454169367155,0,0,-372.454169367155); p_lab[1]=Vec4D(862.47703592318,0,0,862.47703592318); p_lab[2]=Vec4D(862.419220956519,12.3053426462728,-0.403035161271898,862.331333525732); p_lab[3]=Vec4D(372.511984333815,-12.3053426462728,0.403035161271898,-372.308466969707); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.11, \mu_f = 13.11. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.11 -> 'Alpha_QCD'{fac=1.419,cpl=0.118} \mu_F = 13.11 \mu_R = 13.11 } PDF(fla=G, xa=0.0206, ta=171.9) * PDF(flb=G, xb=0.0009719, tb=171.9) -> 3.916e+04 type=none, B=0.09363, VI=0, KP=0, K=0 muR2=171.9, muF2=171.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0206, x2=0.0009719, x1p=1, x2p=1 Cluster sequence: pdfwgt=3.916e+04, flux=0.0001951, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3666.23064719369 , PS = 1.96809818297975e-05 -> 0.0721550187512659 p_lab[0]=Vec4D(82.4074998113084,0,0,82.4074998113084); p_lab[1]=Vec4D(3.8874124377727,0,0,-3.88741243777271); p_lab[2]=Vec4D(14.6515672176234,-10.0905432999538,7.05441924577488,7.94257684565511); p_lab[3]=Vec4D(71.6433450314576,10.0905432999538,-7.05441924577488,70.5775105278805); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.1273, ta=152.2) * PDF(flb=G, xb=0.004394, tb=152.2) -> 6.97 type=none, B=3.871, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1273, x2=0.004394, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.97, flux=6.983e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 26.9771486410198 , PS = 1.23931619310768e-05 -> 0.000334332171546886 p_lab[0]=Vec4D(509.205493137016,0,0,509.205493137016); p_lab[1]=Vec4D(17.577463809142,0,0,-17.5774638091421); p_lab[2]=Vec4D(507.115085536807,1.53629131748674,12.2157154506486,506.965606411342); p_lab[3]=Vec4D(19.6678714093504,-1.53629131748674,-12.2157154506486,-15.3375770834686); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05851, ta=151.7) * PDF(flb=G, xb=0.08714, tb=151.7) -> 0.2555 type=none, B=35.71, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05851, x2=0.08714, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.2555, flux=7.662e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 9.12453933259882 , PS = 8.6699232367047e-06 -> 7.91090555839245e-05 p_lab[0]=Vec4D(234.034767369634,0,0,234.034767369634); p_lab[1]=Vec4D(348.54366338409,0,0,-348.54366338409); p_lab[2]=Vec4D(234.087990036275,5.5357847028818,10.9972261369284,233.763990349754); p_lab[3]=Vec4D(348.490440717448,-5.5357847028818,-10.9972261369284,-348.27288636421); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.01809, ta=152) * PDF(flb=G, xb=0.05329, tb=152) -> 27.8 type=none, B=6.71, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.05329, x2=0.01809, x1p=1, x2p=1 Cluster sequence: pdfwgt=27.8, flux=4.051e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 186.51255971323 , PS = 1.14508628934968e-05 -> 0.00213572974919133 p_lab[0]=Vec4D(72.3668604961876,0,0,-72.3668604961876); p_lab[1]=Vec4D(213.179263447207,0,0,213.179263447207); p_lab[2]=Vec4D(212.832510574614,-12.3118744467295,-0.040528895491563,212.47610139145); p_lab[3]=Vec4D(72.7136133687801,12.3118744467295,0.040528895491563,-71.663698440431); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.09068, ta=153.5) * PDF(flb=G, xb=0.002113, tb=153.5) -> 184.5 type=none, B=1.291, VI=0, KP=0, K=0 muR2=153.5, muF2=153.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002113, x2=0.09068, x1p=1, x2p=1 Cluster sequence: pdfwgt=184.5, flux=2.039e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 238.172449463149 , PS = 1.44069207557393e-05 -> 0.0034313316056159 p_lab[0]=Vec4D(362.715135859342,0,0,-362.715135859342); p_lab[1]=Vec4D(8.45047418753913,0,0,8.45047418753913); p_lab[2]=Vec4D(358.27960083526,3.26557489206423,11.8709694468363,-358.067994212956); p_lab[3]=Vec4D(12.8860092116215,-3.26557489206423,-11.8709694468363,3.80333254115315); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.6, \mu_f = 12.6. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.6 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.6 \mu_R = 12.6 } PDF(fla=G, xa=0.003241, ta=158.9) * PDF(flb=G, xb=0.01591, tb=158.9) -> 1.14e+04 type=none, B=0.3108, VI=0, KP=0, K=0 muR2=158.9, muF2=158.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01591, x2=0.003241, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.14e+04, flux=7.576e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3544.70502832142 , PS = 1.58110994603759e-05 -> 0.0560456837604845 p_lab[0]=Vec4D(12.9644064359694,0,0,-12.9644064359694); p_lab[1]=Vec4D(63.6375225081958,0,0,63.6375225081958); p_lab[2]=Vec4D(15.4100187280497,12.3097480184712,-0.232376214671283,-9.26740428682395); p_lab[3]=Vec4D(61.1919102161155,-12.3097480184712,0.232376214671283,59.9405203590504); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.05223, ta=151.6) * PDF(flb=G, xb=0.7051, tb=151.6) -> 0 type=none, B=258.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7051, x2=0.05223, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.061e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.045, ta=151.7) * PDF(flb=G, xb=0.07434, tb=151.7) -> 0.9842 type=none, B=23.41, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07434, x2=0.045, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.9842, flux=1.168e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 23.0403191077385 , PS = 9.36659604886951e-06 -> 0.000215809361919236 p_lab[0]=Vec4D(179.982068290452,0,0,-179.982068290452); p_lab[1]=Vec4D(297.369364891725,0,0,297.369364891725); p_lab[2]=Vec4D(297.286189177227,-0.333640643142957,12.3074196688276,297.031133688936); p_lab[3]=Vec4D(180.065244004951,0.333640643142957,-12.3074196688276,-179.643837087663); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.72, \mu_f = 12.72. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.72 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.72 \mu_R = 12.72 } PDF(fla=G, xa=0.009861, ta=161.9) * PDF(flb=G, xb=0.003782, tb=161.9) -> 2.288e+04 type=none, B=0.2118, VI=0, KP=0, K=0 muR2=161.9, muF2=161.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003782, x2=0.009861, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.288e+04, flux=0.0001047, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4846.29654111338 , PS = 1.65392224268063e-05 -> 0.0801539764397364 p_lab[0]=Vec4D(39.4454071287102,0,0,-39.4454071287102); p_lab[1]=Vec4D(15.1281504730574,0,0,15.1281504730574); p_lab[2]=Vec4D(37.7881905231891,12.2738418839988,-0.967832831638567,-35.7262291325776); p_lab[3]=Vec4D(16.7853670785785,-12.2738418839988,0.967832831638567,11.4089724769247); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.01735, ta=152.4) * PDF(flb=G, xb=0.02545, tb=152.4) -> 226.6 type=none, B=3.043, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02545, x2=0.01735, x1p=1, x2p=1 Cluster sequence: pdfwgt=226.6, flux=8.848e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 689.569730422439 , PS = 1.28145242894273e-05 -> 0.00883650805975216 p_lab[0]=Vec4D(69.3814469327588,0,0,-69.3814469327588); p_lab[1]=Vec4D(101.80696676184,0,0,101.80696676184); p_lab[2]=Vec4D(69.5563543182047,3.09790392255046,11.915825035223,-68.4580348173699); p_lab[3]=Vec4D(101.632059376394,-3.09790392255046,-11.915825035223,100.883554646452); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.4319, ta=152.6) * PDF(flb=G, xb=0.0007855, tb=152.6) -> 0 type=none, B=2.326, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4319, x2=0.0007855, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.152e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.001411, ta=152.8) * PDF(flb=G, xb=0.2187, tb=152.8) -> -0.1241 type=none, B=2.111, VI=0, KP=0, K=0 muR2=152.8, muF2=152.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001411, x2=0.2187, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.1241, flux=1.266e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.261992757940175 , PS = 1.3472458078009e-05 -> -3.52968644809096e-06 p_lab[0]=Vec4D(5.64366180988959,0,0,5.64366180988964); p_lab[1]=Vec4D(874.781560447427,0,0,-874.781560447427); p_lab[2]=Vec4D(12.3671374228567,-11.1256053596885,5.27302573138724,-1.16713026369); p_lab[3]=Vec4D(868.058084834454,11.1256053596885,-5.27302573138724,-867.970768373841); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.008951, ta=152.2) * PDF(flb=G, xb=0.06489, tb=152.2) -> 62.48 type=none, B=4.021, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008951, x2=0.06489, x1p=1, x2p=1 Cluster sequence: pdfwgt=62.48, flux=6.725e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 251.223411288478 , PS = 1.23270081766904e-05 -> 0.00309683304512912 p_lab[0]=Vec4D(35.8033319054137,0,0,35.8033319054137); p_lab[1]=Vec4D(259.57207071854,0,0,-259.57207071854); p_lab[2]=Vec4D(36.7195374541644,7.70973050619102,9.59916405242186,34.5939378484783); p_lab[3]=Vec4D(258.65586516979,-7.70973050619102,-9.59916405242186,-258.362676661605); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4622, ta=151.6) * PDF(flb=G, xb=0.03424, tb=151.6) -> 0 type=none, B=110.9, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03424, x2=0.4622, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.469e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01137, ta=151.6) * PDF(flb=G, xb=0.9367, tb=151.6) -> 0 type=none, B=74.63, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9367, x2=0.01137, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.669e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.1151, ta=151.9) * PDF(flb=G, xb=0.008732, tb=151.9) -> 6.331 type=none, B=6.997, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008732, x2=0.1151, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.331, flux=3.886e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 44.2963881939583 , PS = 1.13799197833491e-05 -> 0.000504089344339336 p_lab[0]=Vec4D(460.448120247141,0,0,-460.448120247141); p_lab[1]=Vec4D(34.928678312904,0,0,34.928678312904); p_lab[2]=Vec4D(35.9337026650256,11.2297152013435,-5.04751339573413,33.7586595147833); p_lab[3]=Vec4D(459.443095895019,-11.2297152013435,5.04751339573413,-459.27810144902); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.002327, ta=152) * PDF(flb=G, xb=0.3847, tb=152) -> 0 type=none, B=6.225, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3847, x2=0.002327, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.364e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.0001538, ta=155.2) * PDF(flb=G, xb=0.6654, tb=155.2) -> 0 type=none, B=0.6656, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6654, x2=0.0001538, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.818e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.03521, ta=153.8) * PDF(flb=G, xb=0.004684, tb=153.8) -> 1100 type=none, B=1.104, VI=0, KP=0, K=0 muR2=153.8, muF2=153.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.004684, x2=0.03521, x1p=1, x2p=1 Cluster sequence: pdfwgt=1100, flux=2.368e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1214.72093954274 , PS = 1.46483197332225e-05 -> 0.0177936207090625 p_lab[0]=Vec4D(140.858059149222,0,0,-140.858059149222); p_lab[1]=Vec4D(18.7354382941375,0,0,18.7354382941375); p_lab[2]=Vec4D(20.5150234853478,10.7561536946175,5.99074725565739,16.409823083171); p_lab[3]=Vec4D(139.078473958012,-10.7561536946175,-5.99074725565739,-138.532443938256); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5624, ta=151.6) * PDF(flb=G, xb=0.03981, tb=151.6) -> 0 type=none, B=157, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03981, x2=0.5624, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.745e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.2036, ta=155.2) * PDF(flb=G, xb=0.0005006, tb=155.2) -> -0.6527 type=none, B=0.6627, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0005006, x2=0.2036, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.6527, flux=3.833e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.432538104131398 , PS = 1.49990821910335e-05 -> -6.48767457462064e-06 p_lab[0]=Vec4D(814.299943734,0,0,-814.299943734); p_lab[1]=Vec4D(2.00252582327879,0,0,2.00252582327899); p_lab[2]=Vec4D(794.962027306925,-4.58745793795173,11.4253719699152,-794.866681252242); p_lab[3]=Vec4D(21.34044225035,4.58745793795173,-11.4253719699152,-17.4307366584755); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.94, \mu_f = 13.94. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.94 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.94 \mu_R = 13.94 } PDF(fla=G, xa=0.04589, ta=194.2) * PDF(flb=G, xb=0.0002352, tb=194.2) -> 4.141e+04 type=none, B=0.03411, VI=0, KP=0, K=0 muR2=194.2, muF2=194.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002352, x2=0.04589, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.141e+04, flux=0.0003619, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1412.74642865056 , PS = 4.08383432249047e-05 -> 0.0576942235429901 p_lab[0]=Vec4D(183.561899496019,0,0,-183.561899496019); p_lab[1]=Vec4D(0.940917221179832,0,0,0.940917221179813); p_lab[2]=Vec4D(60.3117140837152,-8.08548252945285,-9.28487303355912,-59.0416713917586); p_lab[3]=Vec4D(124.191102633483,8.08548252945285,9.28487303355912,-123.579310883079); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.2146, ta=151.9) * PDF(flb=G, xb=0.006179, tb=151.9) -> -0.003955 type=none, B=9.247, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2146, x2=0.006179, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.003955, flux=2.946e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0365691033304527 , PS = 1.09107620302993e-05 -> -3.98996784099993e-07 p_lab[0]=Vec4D(858.394787937482,0,0,858.394787937482); p_lab[1]=Vec4D(24.7148383935092,0,0,-24.7148383935091); p_lab[2]=Vec4D(26.2066893481631,11.5387439540557,4.29433149001619,-23.1345341774527); p_lab[3]=Vec4D(856.902936982829,-11.5387439540557,-4.29433149001619,856.814483721426); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.008534, ta=151.6) * PDF(flb=G, xb=0.7233, tb=151.6) -> 0 type=none, B=43.24, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008534, x2=0.7233, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.328e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02537, ta=151.7) * PDF(flb=G, xb=0.2039, tb=151.7) -> -0.0008524 type=none, B=36.23, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2039, x2=0.02537, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0008524, flux=7.552e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0308814756962216 , PS = 8.64598053674064e-06 -> -2.67000637815361e-07 p_lab[0]=Vec4D(101.463017408812,0,0,-101.463017408812); p_lab[1]=Vec4D(815.699692550277,0,0,815.699692550277); p_lab[2]=Vec4D(815.372505475854,-9.79719389603019,7.45646610312079,815.27954640785); p_lab[3]=Vec4D(101.790204483234,9.79719389603019,-7.45646610312079,-101.042871266385); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.75, \mu_f = 12.75. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.75 -> 'Alpha_QCD'{fac=1.428,cpl=0.118} \mu_F = 12.75 \mu_R = 12.75 } PDF(fla=G, xa=0.002252, ta=162.5) * PDF(flb=G, xb=0.0156, tb=162.5) -> 2.062e+04 type=none, B=0.1968, VI=0, KP=0, K=0 muR2=162.5, muF2=162.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0156, x2=0.002252, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.062e+04, flux=0.0001112, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4058.48334027638 , PS = 1.67153864664484e-05 -> 0.0678391175003621 p_lab[0]=Vec4D(9.00846733132531,0,0,-9.00846733132531); p_lab[1]=Vec4D(62.3995455804142,0,0,62.3995455804142); p_lab[2]=Vec4D(12.890057540786,11.5264458120976,4.32723259418518,-3.81702612270009); p_lab[3]=Vec4D(58.5179553709534,-11.5264458120976,-4.32723259418518,57.2081043717889); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.00444, ta=151.7) * PDF(flb=G, xb=0.5067, tb=151.7) -> 0 type=none, B=15.73, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5067, x2=0.00444, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.736e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04507, ta=151.6) * PDF(flb=G, xb=0.5196, tb=151.6) -> 0 type=none, B=164.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5196, x2=0.04507, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.668e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01658, ta=151.6) * PDF(flb=G, xb=0.6846, tb=151.6) -> 0 type=none, B=79.54, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6846, x2=0.01658, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.442e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.002697, ta=151.8) * PDF(flb=G, xb=0.5409, tb=151.8) -> 0 type=none, B=10.18, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002697, x2=0.5409, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.678e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.58, \mu_f = 13.58. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.58 -> 'Alpha_QCD'{fac=1.409,cpl=0.118} \mu_F = 13.58 \mu_R = 13.58 } PDF(fla=G, xa=0.002148, ta=184.5) * PDF(flb=G, xb=0.006178, tb=184.5) -> 1.225e+05 type=none, B=0.04942, VI=0, KP=0, K=0 muR2=184.5, muF2=184.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.002148, x2=0.006178, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.225e+05, flux=0.0002944, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6053.705552745 , PS = 2.67103290558823e-05 -> 0.161696467321241 p_lab[0]=Vec4D(8.59182261572093,0,0,8.59182261572093); p_lab[1]=Vec4D(24.7105445181288,0,0,-24.7105445181288); p_lab[2]=Vec4D(12.340962360506,12.3114945413492,0.104867257661906,0.845846912877652); p_lab[3]=Vec4D(20.9614047733438,-12.3114945413492,-0.104867257661906,-16.9645688152855); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.49, \mu_f = 12.49. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.49 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.49 \mu_R = 12.49 } PDF(fla=G, xa=0.0002083, ta=156.1) * PDF(flb=G, xb=0.3971, tb=156.1) -> 0 type=none, B=0.5283, VI=0, KP=0, K=0 muR2=156.1, muF2=156.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3971, x2=0.0002083, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.723e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03565, ta=151.7) * PDF(flb=G, xb=0.1328, tb=151.7) -> 0.08374 type=none, B=33.16, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1328, x2=0.03565, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.08374, flux=8.249e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2.77692020232332 , PS = 8.79177932300406e-06 -> 2.44140696164185e-05 p_lab[0]=Vec4D(142.590391231649,0,0,-142.590391231649); p_lab[1]=Vec4D(531.362338740936,0,0,531.362338740937); p_lab[2]=Vec4D(142.78493814378,-3.75095254800761,11.7266470044082,-142.253135873132); p_lab[3]=Vec4D(531.167791828805,3.75095254800761,-11.7266470044082,531.02508338242); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.07672, ta=156.4) * PDF(flb=G, xb=0.001001, tb=156.4) -> 1048 type=none, B=0.487, VI=0, KP=0, K=0 muR2=156.4, muF2=156.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001001, x2=0.07672, x1p=1, x2p=1 Cluster sequence: pdfwgt=1048, flux=5.086e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 510.445489839246 , PS = 1.52568887851446e-05 -> 0.00778781006935603 p_lab[0]=Vec4D(306.873452112565,0,0,-306.873452112565); p_lab[1]=Vec4D(4.00443898605857,0,0,4.00443898605849); p_lab[2]=Vec4D(297.226155665356,12.3100747169843,0.21437221290292,-296.971048616903); p_lab[3]=Vec4D(13.6517354332681,-12.3100747169843,-0.21437221290292,-5.89796450960394); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.6093, ta=151.9) * PDF(flb=G, xb=0.00164, tb=151.9) -> 0 type=none, B=6.955, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00164, x2=0.6093, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.909e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3051, ta=151.6) * PDF(flb=G, xb=0.0223, tb=151.6) -> 0 type=none, B=47.67, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3051, x2=0.0223, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.741e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3882, ta=151.6) * PDF(flb=G, xb=0.05954, tb=151.6) -> 0 type=none, B=162.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3882, x2=0.05954, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.69e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5686, ta=151.6) * PDF(flb=G, xb=0.0115, tb=151.6) -> 0 type=none, B=45.8, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0115, x2=0.5686, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.976e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06091, ta=151.7) * PDF(flb=G, xb=0.08734, tb=151.7) -> 0.207 type=none, B=37.26, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08734, x2=0.06091, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.207, flux=7.343e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 7.71369549480458 , PS = 8.59976129153749e-06 -> 6.63359399309276e-05 p_lab[0]=Vec4D(243.632889534027,0,0,-243.632889534027); p_lab[1]=Vec4D(349.354564018734,0,0,349.354564018734); p_lab[2]=Vec4D(243.679981655936,-9.40111091367714,7.95003198560491,-243.36875223589); p_lab[3]=Vec4D(349.307471896825,9.40111091367714,-7.95003198560491,349.090426720596); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01316, ta=151.6) * PDF(flb=G, xb=0.5245, tb=151.6) -> 0 type=none, B=48.38, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01316, x2=0.5245, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.658e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02583, ta=151.6) * PDF(flb=G, xb=0.7842, tb=151.6) -> 0 type=none, B=142, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02583, x2=0.7842, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.928e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.001365, ta=153.2) * PDF(flb=G, xb=0.1693, tb=153.2) -> 4.04 type=none, B=1.569, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001365, x2=0.1693, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.04, flux=1.69e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6.33776100084691 , PS = 1.40280264130607e-05 -> 8.89062787195464e-05 p_lab[0]=Vec4D(5.46168006527316,0,0,5.46168006527306); p_lab[1]=Vec4D(677.309020446863,0,0,-677.309020446863); p_lab[2]=Vec4D(12.4162381846182,-10.1609104114379,6.95268254662431,-1.60595008445797); p_lab[3]=Vec4D(670.354462327522,10.1609104114379,-6.95268254662431,-670.241390297136); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.84, \mu_f = 12.84. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.84 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.84 \mu_R = 12.84 } PDF(fla=G, xa=0.02849, ta=165) * PDF(flb=G, xb=0.001024, tb=165) -> 1.842e+04 type=none, B=0.1558, VI=0, KP=0, K=0 muR2=165, muF2=165, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001024, x2=0.02849, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.842e+04, flux=0.0001339, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2868.7490908497 , PS = 1.73842645628136e-05 -> 0.0498710931596622 p_lab[0]=Vec4D(113.941913593492,0,0,-113.941913593492); p_lab[1]=Vec4D(4.09616110984409,0,0,4.09616110984408); p_lab[2]=Vec4D(13.8880182112494,5.50098191308912,11.0146762537656,-6.42597501182466); p_lab[3]=Vec4D(104.150056492086,-5.50098191308912,-11.0146762537656,-103.419777471823); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.27, ta=152.5) * PDF(flb=G, xb=0.001462, tb=152.5) -> 0 type=none, B=2.717, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001462, x2=0.27, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.892e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3802, ta=151.6) * PDF(flb=G, xb=0.03408, tb=151.6) -> 0 type=none, B=90.82, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03408, x2=0.3802, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.015e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.9368, ta=152.9) * PDF(flb=G, xb=0.0002906, tb=152.9) -> 0 type=none, B=1.857, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.9368, x2=0.0002906, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.435e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04014, ta=151.6) * PDF(flb=G, xb=0.5651, tb=151.6) -> 0 type=none, B=159.1, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04014, x2=0.5651, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.722e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.08732, ta=151.6) * PDF(flb=G, xb=0.06802, tb=151.6) -> 0.1437 type=none, B=41.61, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08732, x2=0.06802, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1437, flux=6.577e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 5.97852025901132 , PS = 8.4180489359542e-06 -> 5.03274761049508e-05 p_lab[0]=Vec4D(349.284675608373,0,0,349.284675608373); p_lab[1]=Vec4D(272.061829495736,0,0,-272.061829495736); p_lab[2]=Vec4D(349.253867500575,-6.41134682209177,-10.5108766004675,349.036788990968); p_lab[3]=Vec4D(272.092637603534,6.41134682209177,10.5108766004675,-271.813942878331); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.8981, ta=151.9) * PDF(flb=G, xb=0.001293, tb=151.9) -> 0 type=none, B=8.089, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001293, x2=0.8981, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.365e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.69, \mu_f = 12.69. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.69 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.69 \mu_R = 12.69 } PDF(fla=G, xa=0.1008, ta=161) * PDF(flb=G, xb=0.0004024, tb=161) -> 949.1 type=none, B=0.2344, VI=0, KP=0, K=0 muR2=161, muF2=161, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1008, x2=0.0004024, x1p=1, x2p=1 Cluster sequence: pdfwgt=949.1, flux=9.629e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 222.488819620661 , PS = 1.63167452545133e-05 -> 0.00363029339172768 p_lab[0]=Vec4D(403.205766867015,0,0,403.205766867015); p_lab[1]=Vec4D(1.609772345925,0,0,-1.60977234592498); p_lab[2]=Vec4D(378.201764116345,7.21090035211006,-9.97931916993037,378.001310164042); p_lab[3]=Vec4D(26.6137750965954,-7.21090035211006,9.97931916993037,23.5946843570487); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.43, \mu_f = 12.43. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.43 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.43 \mu_R = 12.43 } PDF(fla=G, xa=0.006066, ta=154.5) * PDF(flb=G, xb=0.02097, tb=154.5) -> 2463 type=none, B=0.8398, VI=0, KP=0, K=0 muR2=154.5, muF2=154.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006066, x2=0.02097, x1p=1, x2p=1 Cluster sequence: pdfwgt=2463, flux=3.071e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2068.09669123057 , PS = 1.48486268946435e-05 -> 0.0307083961501295 p_lab[0]=Vec4D(24.264390857923,0,0,24.264390857923); p_lab[1]=Vec4D(83.8723771090014,0,0,-83.8723771090014); p_lab[2]=Vec4D(25.395831876743,4.76773741022956,-11.3513248112499,22.2118072593924); p_lab[3]=Vec4D(82.7409360901813,-4.76773741022956,11.3513248112499,-81.8197935104708); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01542, ta=151.7) * PDF(flb=G, xb=0.183, tb=151.7) -> -0.001673 type=none, B=19.75, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.183, x2=0.01542, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.001673, flux=1.384e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0330390553420858 , PS = 9.64817683054039e-06 -> -3.18766648254454e-07 p_lab[0]=Vec4D(61.6946378218484,0,0,-61.6946378218484); p_lab[1]=Vec4D(732.02601724928,0,0,732.02601724928); p_lab[2]=Vec4D(731.463062398581,-9.4670462968245,-7.87139945608036,731.359438141415); p_lab[3]=Vec4D(62.2575926725475,9.4670462968245,7.87139945608036,-61.0280587139837); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01858, ta=151.7) * PDF(flb=G, xb=0.2161, tb=151.7) -> -0.0004186 type=none, B=28.1, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2161, x2=0.01858, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0004186, flux=9.731e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0117633215146014 , PS = 9.0648569224851e-06 -> -1.06632826463053e-07 p_lab[0]=Vec4D(74.317792132182,0,0,-74.3177921321818); p_lab[1]=Vec4D(864.202275399757,0,0,864.202275399758); p_lab[2]=Vec4D(74.7841345597997,-5.62436031665914,10.9521900098469,-73.7636962663532); p_lab[3]=Vec4D(863.73593297214,5.62436031665914,-10.9521900098469,863.648179533929); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.93, \mu_f = 13.93. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.93 -> 'Alpha_QCD'{fac=1.401,cpl=0.118} \mu_F = 13.93 \mu_R = 13.93 } PDF(fla=G, xa=0.02206, ta=194) * PDF(flb=G, xb=0.0004915, tb=194) -> 8.857e+04 type=none, B=0.03439, VI=0, KP=0, K=0 muR2=194, muF2=194, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02206, x2=0.0004915, x1p=1, x2p=1 Cluster sequence: pdfwgt=8.857e+04, flux=0.0003603, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3046.41083605183 , PS = 4.02234190655072e-05 -> 0.122537059704215 p_lab[0]=Vec4D(88.2273281274365,0,0,88.2273281274365); p_lab[1]=Vec4D(1.96607563306964,0,0,-1.96607563306962); p_lab[2]=Vec4D(60.4140989715034,-11.0413109737978,5.44732475287575,59.1462548227291); p_lab[3]=Vec4D(29.7793047890027,11.0413109737978,-5.44732475287575,27.1149976716377); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.54, \mu_f = 12.54. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.54 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.54 \mu_R = 12.54 } PDF(fla=G, xa=0.0006412, ta=157.3) * PDF(flb=G, xb=0.1025, tb=157.3) -> 458.5 type=none, B=0.4096, VI=0, KP=0, K=0 muR2=157.3, muF2=157.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1025, x2=0.0006412, x1p=1, x2p=1 Cluster sequence: pdfwgt=458.5, flux=5.944e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 187.7844075246 , PS = 1.54412021941742e-05 -> 0.00289961700550056 p_lab[0]=Vec4D(2.5646552655213,0,0,-2.56465526552139); p_lab[1]=Vec4D(410.004554141527,0,0,410.004554141527); p_lab[2]=Vec4D(17.8196342592257,-12.3048351222359,0.418243467361313,12.8823705174619); p_lab[3]=Vec4D(394.749575147822,12.3048351222359,-0.418243467361313,394.557528358544); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.55, \mu_f = 12.55. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.55 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.55 \mu_R = 12.55 } PDF(fla=G, xa=0.001059, ta=157.6) * PDF(flb=G, xb=0.0587, tb=157.6) -> 2401 type=none, B=0.3848, VI=0, KP=0, K=0 muR2=157.6, muF2=157.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001059, x2=0.0587, x1p=1, x2p=1 Cluster sequence: pdfwgt=2401, flux=6.284e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 923.773034124579 , PS = 1.55161038354514e-05 -> 0.0143333583178669 p_lab[0]=Vec4D(4.23622412657936,0,0,4.23622412657936); p_lab[1]=Vec4D(234.79541170311,0,0,-234.79541170311); p_lab[2]=Vec4D(225.648209581136,-12.2716253249994,0.995543502934328,-225.31207378254); p_lab[3]=Vec4D(13.3834262485544,12.2716253249994,-0.995543502934328,-5.24711379399137); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.07307, ta=151.6) * PDF(flb=G, xb=0.3131, tb=151.6) -> 0 type=none, B=160.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3131, x2=0.07307, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.708e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.0007701, ta=152.2) * PDF(flb=G, xb=0.7579, tb=152.2) -> 0 type=none, B=4.041, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007701, x2=0.7579, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.692e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.55, \mu_f = 13.55. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.55 -> 'Alpha_QCD'{fac=1.409,cpl=0.118} \mu_F = 13.55 \mu_R = 13.55 } PDF(fla=G, xa=7.929e-05, ta=183.7) * PDF(flb=G, xb=0.1709, tb=183.7) -> 167.9 type=none, B=0.05121, VI=0, KP=0, K=0 muR2=183.7, muF2=183.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=7.929e-05, x2=0.1709, x1p=1, x2p=1 Cluster sequence: pdfwgt=167.9, flux=0.0002883, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.59858786783937 , PS = 2.60436337740267e-05 -> 0.000223938473403798 p_lab[0]=Vec4D(0.31716596183702,0,0,0.3171659618371); p_lab[1]=Vec4D(683.592843109508,0,0,-683.592843109508); p_lab[2]=Vec4D(529.343350055041,-1.43128226127992,-12.2284637658189,-529.200149614974); p_lab[3]=Vec4D(154.566659016281,1.43128226127992,12.2284637658189,-154.075527532675); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.1849, ta=152.2) * PDF(flb=G, xb=0.003293, tb=152.2) -> 0.1951 type=none, B=4.219, VI=0, KP=0, K=0 muR2=152.2, muF2=152.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003293, x2=0.1849, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1951, flux=6.413e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.823342179577024 , PS = 1.22437510815681e-05 -> 1.00807967016968e-05 p_lab[0]=Vec4D(739.763555913535,0,0,-739.763555913535); p_lab[1]=Vec4D(13.1737299403072,0,0,13.1737299403072); p_lab[2]=Vec4D(16.0102079533924,3.13397563329553,11.9063886931895,10.2343961095645); p_lab[3]=Vec4D(736.927077900449,-3.13397563329553,-11.9063886931895,-736.824222082792); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.09306, ta=154.2) * PDF(flb=G, xb=0.001493, tb=154.2) -> 276.7 type=none, B=0.9221, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001493, x2=0.09306, x1p=1, x2p=1 Cluster sequence: pdfwgt=276.7, flux=2.811e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 255.134903653015 , PS = 1.47983466563807e-05 -> 0.00377557474839961 p_lab[0]=Vec4D(372.225363214924,0,0,-372.225363214924); p_lab[1]=Vec4D(5.97258356663442,0,0,5.97258356663441); p_lab[2]=Vec4D(365.871971620479,9.77754111893801,7.4822178965115,-365.664758655347); p_lab[3]=Vec4D(12.3259751610792,-9.77754111893801,-7.4822178965115,-0.588020992942418); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.36, \mu_f = 12.36. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.36 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.36 \mu_R = 12.36 } PDF(fla=G, xa=0.2339, ta=152.8) * PDF(flb=G, xb=0.001261, tb=152.8) -> -0.03388 type=none, B=2.015, VI=0, KP=0, K=0 muR2=152.8, muF2=152.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001261, x2=0.2339, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.03388, flux=1.325e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0682803546156156 , PS = 1.35579278240284e-05 -> -9.25740119677582e-07 p_lab[0]=Vec4D(935.435375321177,0,0,-935.435375321177); p_lab[1]=Vec4D(5.04393614559579,0,0,5.04393614559539); p_lab[2]=Vec4D(927.901709742557,-0.167122340621183,12.3108068422287,-927.820025138592); p_lab[3]=Vec4D(12.5776017242174,0.167122340621183,-12.3108068422287,-2.5714140369913); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.119, ta=151.7) * PDF(flb=G, xb=0.04365, tb=151.7) -> 0.113 type=none, B=36.37, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.119, x2=0.04365, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.113, flux=7.523e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4.10908004244923 , PS = 8.6397093655316e-06 -> 3.55012573264676e-05 p_lab[0]=Vec4D(475.821590489908,0,0,475.821590489908); p_lab[1]=Vec4D(174.600017197868,0,0,-174.600017197868); p_lab[2]=Vec4D(475.684126497022,0.00847062581505246,12.3119382402568,475.524767290045); p_lab[3]=Vec4D(174.737481190755,-0.00847062581505246,-12.3119382402568,-174.303193998005); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4864, ta=151.6) * PDF(flb=G, xb=0.01771, tb=151.6) -> 0 type=none, B=60.37, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4864, x2=0.01771, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.535e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.2133, ta=151.6) * PDF(flb=G, xb=0.04924, tb=151.6) -> -0.0001761 type=none, B=73.63, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04924, x2=0.2133, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0001761, flux=3.719e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0129639745370261 , PS = 7.47906238873253e-06 -> -9.69583743683583e-08 p_lab[0]=Vec4D(853.231962182953,0,0,-853.231962182953); p_lab[1]=Vec4D(196.979848866,0,0,196.979848866); p_lab[2]=Vec4D(197.127852652719,-8.82977759934604,-8.58014699929363,196.74299580033); p_lab[3]=Vec4D(853.083958396234,8.82977759934604,8.58014699929363,-852.995109117283); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.01128, ta=152.9) * PDF(flb=G, xb=0.02429, tb=152.9) -> 579 type=none, B=1.869, VI=0, KP=0, K=0 muR2=152.9, muF2=152.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02429, x2=0.01128, x1p=1, x2p=1 Cluster sequence: pdfwgt=579, flux=1.426e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1081.94613672377 , PS = 1.36981234847271e-05 -> 0.0148206317846656 p_lab[0]=Vec4D(45.1085624799053,0,0,-45.1085624799053); p_lab[1]=Vec4D(97.1729366436016,0,0,97.1729366436016); p_lab[2]=Vec4D(45.5626439065415,-11.8335606851474,-3.39863744673286,-43.8676489542225); p_lab[3]=Vec4D(96.7188552169654,11.8335606851474,3.39863744673286,95.9320231179189); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.0001218, ta=155.8) * PDF(flb=G, xb=0.7126, tb=155.8) -> 0 type=none, B=0.5571, VI=0, KP=0, K=0 muR2=155.8, muF2=155.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001218, x2=0.7126, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.499e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.31, \mu_f = 13.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.31 -> 'Alpha_QCD'{fac=1.415,cpl=0.118} \mu_F = 13.31 \mu_R = 13.31 } PDF(fla=G, xa=8.195e-05, ta=177.2) * PDF(flb=G, xb=0.1997, tb=177.2) -> -4.568 type=none, B=0.06937, VI=0, KP=0, K=0 muR2=177.2, muF2=177.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=8.195e-05, x2=0.1997, x1p=1, x2p=1 Cluster sequence: pdfwgt=-4.568, flux=0.0002387, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.316909901525131 , PS = 2.20162110396077e-05 -> -6.97715527251859e-06 p_lab[0]=Vec4D(0.327787028732787,0,0,0.327787028732686); p_lab[1]=Vec4D(798.683714232583,0,0,-798.683714232583); p_lab[2]=Vec4D(140.50431606071,-8.03334467261235,9.33001974030127,-139.963848677808); p_lab[3]=Vec4D(658.507185200694,8.03334467261235,-9.33001974030127,-658.39207852613); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.48, \mu_f = 12.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.48 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.48 \mu_R = 12.48 } PDF(fla=G, xa=0.008536, ta=155.7) * PDF(flb=G, xb=0.01058, tb=155.7) -> 5268 type=none, B=0.5818, VI=0, KP=0, K=0 muR2=155.7, muF2=155.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.008536, x2=0.01058, x1p=1, x2p=1 Cluster sequence: pdfwgt=5268, flux=4.323e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3065.10949969701 , PS = 1.50984267369777e-05 -> 0.0462783312219897 p_lab[0]=Vec4D(34.1458941208917,0,0,34.1458941208917); p_lab[1]=Vec4D(42.3371880927898,0,0,-42.3371880927898); p_lab[2]=Vec4D(42.1165170580841,12.134232564334,-2.08429725760422,-40.2767564995059); p_lab[3]=Vec4D(34.3665651555974,-12.134232564334,2.08429725760422,32.0854625276078); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01412, ta=151.6) * PDF(flb=G, xb=0.9599, tb=151.6) -> 0 type=none, B=94.99, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01412, x2=0.9599, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.883e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.03475, ta=151.7) * PDF(flb=G, xb=0.06713, tb=151.7) -> 2.864 type=none, B=16.31, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.06713, x2=0.03475, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.864, flux=1.674e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 46.7188297841655 , PS = 9.96489047524705e-06 -> 0.000465548021930919 p_lab[0]=Vec4D(139.005642788702,0,0,-139.005642788702); p_lab[1]=Vec4D(268.52631209089,0,0,268.52631209089); p_lab[2]=Vec4D(139.137272662347,5.1879708025039,11.1655207641994,-138.59147430103); p_lab[3]=Vec4D(268.394682217244,-5.1879708025039,-11.1655207641994,268.112143603217); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.03861, ta=151.9) * PDF(flb=G, xb=0.0286, tb=151.9) -> 25.89 type=none, B=7.692, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03861, x2=0.0286, x1p=1, x2p=1 Cluster sequence: pdfwgt=25.89, flux=3.538e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 199.131057842036 , PS = 1.12201949339293e-05 -> 0.00223428928638719 p_lab[0]=Vec4D(154.451092446796,0,0,154.451092446796); p_lab[1]=Vec4D(114.389562357252,0,0,-114.389562357252); p_lab[2]=Vec4D(154.364977652459,2.91678998750299,11.961447703025,153.873202444937); p_lab[3]=Vec4D(114.475677151589,-2.91678998750299,-11.961447703025,-113.811672355393); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.8317, ta=151.6) * PDF(flb=G, xb=0.01429, tb=151.6) -> 0 type=none, B=83.29, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8317, x2=0.01429, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.287e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.01152, ta=151.9) * PDF(flb=G, xb=0.08742, tb=151.9) -> 11.15 type=none, B=7.008, VI=0, KP=0, K=0 muR2=151.9, muF2=151.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08742, x2=0.01152, x1p=1, x2p=1 Cluster sequence: pdfwgt=11.15, flux=3.88e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 78.1048787579665 , PS = 1.13774102921597e-05 -> 0.000888631251448776 p_lab[0]=Vec4D(46.0628520530514,0,0,-46.0628520530515); p_lab[1]=Vec4D(349.664946289734,0,0,349.664946289734); p_lab[2]=Vec4D(46.778864147144,-10.7522639860951,-5.99772574870869,-45.1295716345009); p_lab[3]=Vec4D(348.948934195642,10.7522639860951,5.99772574870869,348.731665871184); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01118, ta=151.7) * PDF(flb=G, xb=0.3229, tb=151.7) -> 0 type=none, B=25.26, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01118, x2=0.3229, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.082e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.02667, ta=153.9) * PDF(flb=G, xb=0.005935, tb=153.9) -> 1398 type=none, B=1.057, VI=0, KP=0, K=0 muR2=153.9, muF2=153.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02667, x2=0.005935, x1p=1, x2p=1 Cluster sequence: pdfwgt=1398, flux=2.468e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1477.85602116324 , PS = 1.47021428619501e-05 -> 0.0217276503525351 p_lab[0]=Vec4D(106.663190495995,0,0,106.663190495995); p_lab[1]=Vec4D(23.7403695199022,0,0,-23.7403695199022); p_lab[2]=Vec4D(25.0004998870501,8.73836438029013,8.6732279423913,-21.7587016988375); p_lab[3]=Vec4D(105.403060128848,-8.73836438029013,-8.6732279423913,104.681522674931); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.2289, ta=154.7) * PDF(flb=G, xb=0.000508, tb=154.7) -> 0.0003272 type=none, B=0.7635, VI=0, KP=0, K=0 muR2=154.7, muF2=154.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2289, x2=0.000508, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.0003272, flux=3.358e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.000249808282403088 , PS = 1.49048485674889e-05 -> 3.72335462012253e-09 p_lab[0]=Vec4D(915.774588853378,0,0,915.774588853378); p_lab[1]=Vec4D(2.03215036939022,0,0,-2.03215036939005); p_lab[2]=Vec4D(21.0341438505706,-1.68921925326376,-12.195508734686,17.0543634458486); p_lab[3]=Vec4D(896.772595372194,1.68921925326376,12.195508734686,896.688075038136); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.56, \mu_f = 12.56. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.56 -> 'Alpha_QCD'{fac=1.433,cpl=0.118} \mu_F = 12.56 \mu_R = 12.56 } PDF(fla=G, xa=0.0001089, ta=157.8) * PDF(flb=G, xb=0.5485, tb=157.8) -> 0 type=none, B=0.3678, VI=0, KP=0, K=0 muR2=157.8, muF2=157.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.5485, x2=0.0001089, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.54e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.6352, ta=152) * PDF(flb=G, xb=0.001369, tb=152) -> 0 type=none, B=6.044, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6352, x2=0.001369, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.494e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.84, \mu_f = 13.84. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.84 -> 'Alpha_QCD'{fac=1.403,cpl=0.118} \mu_F = 13.84 \mu_R = 13.84 } PDF(fla=G, xa=0.0002947, ta=191.6) * PDF(flb=G, xb=0.03851, tb=191.6) -> 4.948e+04 type=none, B=0.03747, VI=0, KP=0, K=0 muR2=191.6, muF2=191.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002947, x2=0.03851, x1p=1, x2p=1 Cluster sequence: pdfwgt=4.948e+04, flux=0.0003442, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1854.20851579224 , PS = 3.51453644234923e-05 -> 0.0651668340046613 p_lab[0]=Vec4D(1.17886622213472,0,0,1.17886622213468); p_lab[1]=Vec4D(154.030995940023,0,0,-154.030995940023); p_lab[2]=Vec4D(108.668520585808,10.3190452218502,6.71574275064274,-107.968807862849); p_lab[3]=Vec4D(46.5413415763505,-10.3190452218502,-6.71574275064274,-44.8833218550402); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.2016, ta=153.8) * PDF(flb=G, xb=0.0008053, tb=153.8) -> -0.2861 type=none, B=1.086, VI=0, KP=0, K=0 muR2=153.8, muF2=153.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0008053, x2=0.2016, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.2861, flux=2.406e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.310761886142904 , PS = 1.46688267205946e-05 -> -4.55851225919543e-06 p_lab[0]=Vec4D(806.370681199513,0,0,-806.370681199513); p_lab[1]=Vec4D(3.22134431017491,0,0,3.22134431017495); p_lab[2]=Vec4D(15.1144884876568,7.46809908848163,9.78832932568272,-8.76720407314149); p_lab[3]=Vec4D(794.477537022029,-7.46809908848163,-9.78832932568272,-794.382132816194); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.003051, ta=151.8) * PDF(flb=G, xb=0.4653, tb=151.8) -> 0 type=none, B=9.905, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003051, x2=0.4653, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.752e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.4, \mu_f = 12.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.4 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.4 \mu_R = 12.4 } PDF(fla=G, xa=0.007381, ta=153.8) * PDF(flb=G, xb=0.02212, tb=153.8) -> 1576 type=none, B=1.093, VI=0, KP=0, K=0 muR2=153.8, muF2=153.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.007381, x2=0.02212, x1p=1, x2p=1 Cluster sequence: pdfwgt=1576, flux=2.392e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1721.892542753 , PS = 1.46613884144949e-05 -> 0.0252453353773241 p_lab[0]=Vec4D(29.5250203853638,0,0,29.5250203853638); p_lab[1]=Vec4D(88.4849922465863,0,0,-88.4849922465863); p_lab[2]=Vec4D(30.3930446098631,-0.347271433919757,-12.3070425990399,27.7876459181725); p_lab[3]=Vec4D(87.6169680220869,0.347271433919757,12.3070425990399,-86.747617779395); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.61, \mu_f = 12.61. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.61 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.61 \mu_R = 12.61 } PDF(fla=G, xa=0.0006441, ta=158.9) * PDF(flb=G, xb=0.07955, tb=158.9) -> 1402 type=none, B=0.3085, VI=0, KP=0, K=0 muR2=158.9, muF2=158.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.07955, x2=0.0006441, x1p=1, x2p=1 Cluster sequence: pdfwgt=1402, flux=7.624e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 432.698227507914 , PS = 1.58225942928505e-05 -> 0.00684640850509324 p_lab[0]=Vec4D(2.57620261818254,0,0,-2.5762026181825); p_lab[1]=Vec4D(318.194383752972,0,0,318.194383752972); p_lab[2]=Vec4D(302.858275556783,-8.32310105463882,9.07247947463486,302.607916582242); p_lab[3]=Vec4D(17.9123108143748,8.32310105463882,-9.07247947463486,13.0102645525511); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3931, ta=151.6) * PDF(flb=G, xb=0.08798, tb=151.6) -> 0 type=none, B=242.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08798, x2=0.3931, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.129e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.3797, ta=151.8) * PDF(flb=G, xb=0.005668, tb=151.8) -> 0 type=none, B=15.04, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005668, x2=0.3797, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.815e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.04154, ta=152.4) * PDF(flb=G, xb=0.01018, tb=152.4) -> 175.8 type=none, B=2.912, VI=0, KP=0, K=0 muR2=152.4, muF2=152.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04154, x2=0.01018, x1p=1, x2p=1 Cluster sequence: pdfwgt=175.8, flux=9.242e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 511.930393675233 , PS = 1.28929447071629e-05 -> 0.0066002902595709 p_lab[0]=Vec4D(166.144026826062,0,0,166.144026826062); p_lab[1]=Vec4D(40.7051813998489,0,0,-40.7051813998489); p_lab[2]=Vec4D(41.4120602216767,-12.1864213707366,-1.75357610563527,-39.5395351113335); p_lab[3]=Vec4D(165.437148004235,12.1864213707366,1.75357610563527,164.978380537547); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.4384, ta=153) * PDF(flb=G, xb=0.0005937, tb=153) -> 0 type=none, B=1.773, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4384, x2=0.0005937, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.501e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.002657, ta=151.8) * PDF(flb=G, xb=0.6803, tb=151.8) -> 0 type=none, B=12.62, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6803, x2=0.002657, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.161e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.4966, ta=151.6) * PDF(flb=G, xb=0.04922, tb=151.6) -> 0 type=none, B=171.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4966, x2=0.04922, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.598e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.66, \mu_f = 13.66. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.66 -> 'Alpha_QCD'{fac=1.407,cpl=0.118} \mu_F = 13.66 \mu_R = 13.66 } PDF(fla=G, xa=0.005075, ta=186.5) * PDF(flb=G, xb=0.002495, tb=186.5) -> 1.335e+05 type=none, B=0.0456, VI=0, KP=0, K=0 muR2=186.5, muF2=186.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005075, x2=0.002495, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.335e+05, flux=0.0003085, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6089.45524278703 , PS = 2.84679459515251e-05 -> 0.173354282725893 p_lab[0]=Vec4D(20.2995810353225,0,0,20.2995810353225); p_lab[1]=Vec4D(9.98031794257773,0,0,-9.98031794257772); p_lab[2]=Vec4D(12.5508976409645,2.61808873419952,-12.0303576988907,-2.43744468871945); p_lab[3]=Vec4D(17.7290013369358,-2.61808873419952,12.0303576988907,12.7567077814643); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01876, ta=151.7) * PDF(flb=G, xb=0.186, tb=151.7) -> 0.007786 type=none, B=24.42, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01876, x2=0.186, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.007786, flux=1.12e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.190120060431353 , PS = 9.29687297244888e-06 -> 1.76752205134459e-06 p_lab[0]=Vec4D(75.0468417050423,0,0,75.0468417050423); p_lab[1]=Vec4D(743.835703802328,0,0,-743.835703802328); p_lab[2]=Vec4D(743.381377593959,10.1206040454669,-7.01122448209154,-743.279414929882); p_lab[3]=Vec4D(75.5011679134119,-10.1206040454669,7.01122448209154,74.4905528325964); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.45, \mu_f = 12.45. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.45 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.45 \mu_R = 12.45 } PDF(fla=G, xa=0.1062, ta=155.1) * PDF(flb=G, xb=0.0009913, tb=155.1) -> 277.5 type=none, B=0.6861, VI=0, KP=0, K=0 muR2=155.1, muF2=155.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0009913, x2=0.1062, x1p=1, x2p=1 Cluster sequence: pdfwgt=277.5, flux=3.711e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 190.43097141033 , PS = 1.49747342826996e-05 -> 0.00285165319606606 p_lab[0]=Vec4D(424.742966739017,0,0,-424.742966739017); p_lab[1]=Vec4D(3.96507487418032,0,0,3.96507487418013); p_lab[2]=Vec4D(13.6565110677131,5.07134345111243,-11.2189736867621,-5.90901003207571); p_lab[3]=Vec4D(415.051530545483,-5.07134345111243,11.2189736867621,-414.86888183276); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.007569, ta=151.7) * PDF(flb=G, xb=0.3003, tb=151.7) -> 0 type=none, B=15.89, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3003, x2=0.007569, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.718e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01608, ta=151.6) * PDF(flb=G, xb=0.8519, tb=151.6) -> 0 type=none, B=96.06, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8519, x2=0.01608, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.851e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.87, \mu_f = 13.87. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.87 -> 'Alpha_QCD'{fac=1.402,cpl=0.118} \mu_F = 13.87 \mu_R = 13.87 } PDF(fla=G, xa=0.1697, ta=192.3) * PDF(flb=G, xb=6.59e-05, tb=192.3) -> 237.4 type=none, B=0.03645, VI=0, KP=0, K=0 muR2=192.3, muF2=192.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=6.59e-05, x2=0.1697, x1p=1, x2p=1 Cluster sequence: pdfwgt=237.4, flux=0.0003493, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 8.65331833513757 , PS = 3.65535673952218e-05 -> 0.00031630965495576 p_lab[0]=Vec4D(678.70211943562,0,0,-678.70211943562); p_lab[1]=Vec4D(0.263601009746518,0,0,0.263601009746425); p_lab[2]=Vec4D(206.917845458012,-12.1499506100897,1.99062682484195,-206.551230628148); p_lab[3]=Vec4D(472.047874987358,12.1499506100897,-1.99062682484195,-471.887287797729); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.03072, ta=151.6) * PDF(flb=G, xb=0.917, tb=151.6) -> 0 type=none, B=197.6, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.917, x2=0.03072, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.386e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.23, \mu_f = 13.23. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.23 -> 'Alpha_QCD'{fac=1.417,cpl=0.118} \mu_F = 13.23 \mu_R = 13.23 } PDF(fla=G, xa=0.003966, ta=175.1) * PDF(flb=G, xb=0.004439, tb=175.1) -> 8.08e+04 type=none, B=0.07755, VI=0, KP=0, K=0 muR2=175.1, muF2=175.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003966, x2=0.004439, x1p=1, x2p=1 Cluster sequence: pdfwgt=8.08e+04, flux=0.0002219, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6266.38791772099 , PS = 2.10192112252182e-05 -> 0.131714531261733 p_lab[0]=Vec4D(15.8634261703381,0,0,15.8634261703381); p_lab[1]=Vec4D(17.7571035228487,0,0,-17.7571035228487); p_lab[2]=Vec4D(16.1667808271202,-11.9443619043241,2.98598621596464,10.4776384423562); p_lab[3]=Vec4D(17.4537488660666,11.9443619043241,-2.98598621596464,-12.3713157948668); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01163, ta=151.7) * PDF(flb=G, xb=0.2382, tb=151.7) -> -0.0004339 type=none, B=19.38, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01163, x2=0.2382, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0004339, flux=1.41e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00840637368936892 , PS = 9.67946939837147e-06 -> -8.13692368775214e-08 p_lab[0]=Vec4D(46.508607609453,0,0,46.508607609453); p_lab[1]=Vec4D(952.914837445526,0,0,-952.914837445526); p_lab[2]=Vec4D(47.2843193392188,5.89189276790928,-10.8106195287254,45.6532907947481); p_lab[3]=Vec4D(952.13912571576,-5.89189276790928,10.8106195287254,-952.059520630821); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02013, ta=151.6) * PDF(flb=G, xb=0.4906, tb=151.6) -> 0 type=none, B=69.21, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4906, x2=0.02013, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.956e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.001389, ta=154.1) * PDF(flb=G, xb=0.1041, tb=154.1) -> 187.4 type=none, B=0.9616, VI=0, KP=0, K=0 muR2=154.1, muF2=154.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001389, x2=0.1041, x1p=1, x2p=1 Cluster sequence: pdfwgt=187.4, flux=2.702e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 180.217278855705 , PS = 1.47772691739683e-05 -> 0.00266311923945085 p_lab[0]=Vec4D(5.55568233636644,0,0,5.55568233636642); p_lab[1]=Vec4D(416.402450461346,0,0,-416.402450461346); p_lab[2]=Vec4D(12.399807326288,-9.74504458465883,7.52449340662959,-1.47354224427571); p_lab[3]=Vec4D(409.558325471425,9.74504458465883,-7.52449340662959,-409.373225880704); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.6617, ta=152.3) * PDF(flb=G, xb=0.0007487, tb=152.3) -> 0 type=none, B=3.422, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6617, x2=0.0007487, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.885e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.003021, ta=153) * PDF(flb=G, xb=0.0832, tb=153) -> 123.9 type=none, B=1.71, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0832, x2=0.003021, x1p=1, x2p=1 Cluster sequence: pdfwgt=123.9, flux=1.554e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 211.849914941259 , PS = 1.38645329228989e-05 -> 0.00293720012041642 p_lab[0]=Vec4D(12.082226792524,0,0,-12.0822267925241); p_lab[1]=Vec4D(332.814610133779,0,0,332.814610133779); p_lab[2]=Vec4D(329.762933679084,12.310585065693,0.182730193830775,329.533015847658); p_lab[3]=Vec4D(15.1339032472183,-12.310585065693,-0.182730193830775,-8.8006325064034); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.47, \mu_f = 12.47. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.47 -> 'Alpha_QCD'{fac=1.435,cpl=0.118} \mu_F = 12.47 \mu_R = 12.47 } PDF(fla=G, xa=0.0002917, ta=155.6) * PDF(flb=G, xb=0.3172, tb=155.6) -> 0 type=none, B=0.5969, VI=0, KP=0, K=0 muR2=155.6, muF2=155.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3172, x2=0.0002917, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.222e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.02, \mu_f = 14.02. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.02 -> 'Alpha_QCD'{fac=1.399,cpl=0.118} \mu_F = 14.02 \mu_R = 14.02 } PDF(fla=G, xa=0.01816, ta=196.6) * PDF(flb=G, xb=0.0005699, tb=196.6) -> 1.107e+05 type=none, B=0.03144, VI=0, KP=0, K=0 muR2=196.6, muF2=196.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01816, x2=0.0005699, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.107e+05, flux=0.0003775, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3482.08224636401 , PS = 4.91514673725881e-05 -> 0.171149451920829 p_lab[0]=Vec4D(72.6246944477414,0,0,72.6246944477414); p_lab[1]=Vec4D(2.27978768358844,0,0,-2.27978768358844); p_lab[2]=Vec4D(47.6744408757414,-6.86522976718506,10.2202013300696,46.0572298106515); p_lab[3]=Vec4D(27.2300412555884,6.86522976718506,-10.2202013300696,24.2876769535014); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04036, ta=151.6) * PDF(flb=G, xb=0.8557, tb=151.6) -> 0 type=none, B=242.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04036, x2=0.8557, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.131e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.00976, ta=151.7) * PDF(flb=G, xb=0.4778, tb=151.7) -> 0 type=none, B=32.66, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00976, x2=0.4778, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.376e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1501, ta=151.8) * PDF(flb=G, xb=0.01402, tb=151.8) -> 0.1836 type=none, B=14.71, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1501, x2=0.01402, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.1836, flux=1.856e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2.70091611452885 , PS = 1.01366900630985e-05 -> 2.73783495394071e-05 p_lab[0]=Vec4D(600.408413980674,0,0,600.408413980674); p_lab[1]=Vec4D(56.0772677755444,0,0,-56.0772677755444); p_lab[2]=Vec4D(599.795058455116,1.57583992712873,-12.2106766195599,599.668682067183); p_lab[3]=Vec4D(56.6906233011025,-1.57583992712873,12.2106766195599,-55.3375358620539); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.46, \mu_f = 12.46. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.46 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.46 \mu_R = 12.46 } PDF(fla=G, xa=0.0001985, ta=155.2) * PDF(flb=G, xb=0.5114, tb=155.2) -> 0 type=none, B=0.66, VI=0, KP=0, K=0 muR2=155.2, muF2=155.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001985, x2=0.5114, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=3.848e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02819, ta=151.6) * PDF(flb=G, xb=0.6134, tb=151.6) -> 0 type=none, B=121.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02819, x2=0.6134, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.259e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.0002018, ta=154.2) * PDF(flb=G, xb=0.6904, tb=154.2) -> 0 type=none, B=0.9246, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002018, x2=0.6904, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.804e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3226, ta=151.6) * PDF(flb=G, xb=0.08585, tb=151.6) -> 0 type=none, B=194.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08585, x2=0.3226, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.41e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.3009, ta=151.6) * PDF(flb=G, xb=0.1694, tb=151.6) -> 0 type=none, B=357.4, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3009, x2=0.1694, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.666e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7232, ta=151.6) * PDF(flb=G, xb=0.02041, tb=151.6) -> 0 type=none, B=103.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7232, x2=0.02041, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.647e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.01693, ta=153.1) * PDF(flb=G, xb=0.01441, tb=153.1) -> 808.1 type=none, B=1.659, VI=0, KP=0, K=0 muR2=153.1, muF2=153.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01693, x2=0.01441, x1p=1, x2p=1 Cluster sequence: pdfwgt=808.1, flux=1.601e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1340.49063255568 , PS = 1.39218157893675e-05 -> 0.0186620636538129 p_lab[0]=Vec4D(67.7359388190406,0,0,67.7359388190406); p_lab[1]=Vec4D(57.6459972092479,0,0,-57.6459972092479); p_lab[2]=Vec4D(67.6370445673978,-0.390400784671393,12.3057499653913,66.5070364911019); p_lab[3]=Vec4D(57.7448914608907,0.390400784671393,-12.3057499653913,-56.4170948813092); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.00391, ta=152) * PDF(flb=G, xb=0.2354, tb=152) -> 0 type=none, B=6.402, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2354, x2=0.00391, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.245e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.8684, ta=151.6) * PDF(flb=G, xb=0.01594, tb=151.6) -> 0 type=none, B=97.03, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.8684, x2=0.01594, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.822e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.38, \mu_f = 12.38. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.38 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.38 \mu_R = 12.38 } PDF(fla=G, xa=0.001606, ta=153.2) * PDF(flb=G, xb=0.1414, tb=153.2) -> 23.49 type=none, B=1.539, VI=0, KP=0, K=0 muR2=153.2, muF2=153.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001606, x2=0.1414, x1p=1, x2p=1 Cluster sequence: pdfwgt=23.49, flux=1.721e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 36.1597397197089 , PS = 1.40645283141672e-05 -> 0.000508569683120763 p_lab[0]=Vec4D(6.42298718896862,0,0,6.4229871889688); p_lab[1]=Vec4D(565.4121381751,0,0,-565.4121381751); p_lab[2]=Vec4D(12.3181898410554,12.0458072433695,-2.54606025831806,0.392308522566189); p_lab[3]=Vec4D(559.516935523011,-12.0458072433695,2.54606025831806,-559.381459508695); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04922, ta=151.6) * PDF(flb=G, xb=0.1254, tb=151.6) -> 0.07572 type=none, B=43.23, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.04922, x2=0.1254, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.07572, flux=6.33e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3.27345359793185 , PS = 8.35501054657757e-06 -> 2.73497393344529e-05 p_lab[0]=Vec4D(196.864355580651,0,0,196.86435558065); p_lab[1]=Vec4D(501.516516449095,0,0,-501.516516449095); p_lab[2]=Vec4D(196.981335628849,7.51763973838883,9.75033269930815,196.596191954834); p_lab[3]=Vec4D(501.399536400896,-7.51763973838883,-9.75033269930815,-501.248352823278); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01428, ta=151.6) * PDF(flb=G, xb=0.4829, tb=151.6) -> 0 type=none, B=48.31, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01428, x2=0.4829, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.666e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.002259, ta=152) * PDF(flb=G, xb=0.3916, tb=152) -> 0 type=none, B=6.152, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3916, x2=0.002259, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.415e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.784, ta=151.6) * PDF(flb=G, xb=0.00732, tb=151.6) -> 0 type=none, B=40.2, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00732, x2=0.784, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=6.807e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.0001821, ta=160.6) * PDF(flb=G, xb=0.2322, tb=160.6) -> -0.6198 type=none, B=0.2463, VI=0, KP=0, K=0 muR2=160.6, muF2=160.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001821, x2=0.2322, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.6198, flux=9.239e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.15264684227234 , PS = 1.62169793746952e-05 -> -2.47547069274289e-06 p_lab[0]=Vec4D(0.728439725306724,0,0,0.728439725306718); p_lab[1]=Vec4D(928.655502117505,0,0,-928.655502117505); p_lab[2]=Vec4D(873.380145601105,7.2454225563714,-9.95428284523929,-873.293361268264); p_lab[3]=Vec4D(56.0037962417431,-7.2454225563714,9.95428284523929,-54.63370112397); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.02087, ta=151.6) * PDF(flb=G, xb=0.4129, tb=151.6) -> 0 type=none, B=60.39, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02087, x2=0.4129, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.533e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.01833, ta=151.7) * PDF(flb=G, xb=0.2326, tb=151.7) -> -0.0004773 type=none, B=29.85, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01833, x2=0.2326, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.0004773, flux=9.164e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.0142449632152176 , PS = 8.96550922322553e-06 -> -1.27713349090542e-07 p_lab[0]=Vec4D(73.3053928444287,0,0,73.3053928444289); p_lab[1]=Vec4D(930.406211373072,0,0,-930.406211373072); p_lab[2]=Vec4D(73.7818874210272,11.3089679357924,4.8673544365107,72.7473918187156); p_lab[3]=Vec4D(929.929716796474,-11.3089679357924,-4.8673544365107,-929.84821034736); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.3418, ta=151.8) * PDF(flb=G, xb=0.005931, tb=151.8) -> 0 type=none, B=14.17, VI=0, KP=0, K=0 muR2=151.8, muF2=151.8, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.005931, x2=0.3418, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=1.927e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.04712, ta=151.6) * PDF(flb=G, xb=0.4012, tb=151.6) -> 0 type=none, B=132.5, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4012, x2=0.04712, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.066e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.48, \mu_f = 13.48. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.48 -> 'Alpha_QCD'{fac=1.411,cpl=0.118} \mu_F = 13.48 \mu_R = 13.48 } PDF(fla=G, xa=0.002238, ta=181.7) * PDF(flb=G, xb=0.00638, tb=181.7) -> 1.076e+05 type=none, B=0.05586, VI=0, KP=0, K=0 muR2=181.7, muF2=181.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00638, x2=0.002238, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.076e+05, flux=0.0002736, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 6008.85448343418 , PS = 2.46241019822155e-05 -> 0.147962645596376 p_lab[0]=Vec4D(8.95286373704193,0,0,-8.95286373704194); p_lab[1]=Vec4D(25.5197126344308,0,0,25.5197126344308); p_lab[2]=Vec4D(22.0416678392683,6.48842805136339,-10.4634696160347,18.2825388322638); p_lab[3]=Vec4D(12.4309085322044,-6.48842805136339,10.4634696160347,-1.71568993487498); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.0008616, ta=152.3) * PDF(flb=G, xb=0.5903, tb=152.3) -> 0 type=none, B=3.515, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0008616, x2=0.5903, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.68e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.01738, ta=151.6) * PDF(flb=G, xb=0.831, tb=151.6) -> 0 type=none, B=101.3, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.831, x2=0.01738, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.705e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.4, \mu_f = 13.4. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.4 -> 'Alpha_QCD'{fac=1.413,cpl=0.118} \mu_F = 13.4 \mu_R = 13.4 } PDF(fla=G, xa=0.0007684, ta=179.7) * PDF(flb=G, xb=0.01971, tb=179.7) -> 6.047e+04 type=none, B=0.06143, VI=0, KP=0, K=0 muR2=179.7, muF2=179.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01971, x2=0.0007684, x1p=1, x2p=1 Cluster sequence: pdfwgt=6.047e+04, flux=0.000258, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3714.82766954413 , PS = 2.33467705175073e-05 -> 0.0867292291129331 p_lab[0]=Vec4D(3.07353073310704,0,0,-3.07353073310705); p_lab[1]=Vec4D(78.83134955693,0,0,78.83134955693); p_lab[2]=Vec4D(17.7758872430552,8.55353515103221,-8.85555935011769,12.8217889662251); p_lab[3]=Vec4D(64.1289930469819,-8.55353515103221,8.85555935011769,62.9360298575979); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.1155, ta=156.7) * PDF(flb=G, xb=0.0006336, tb=156.7) -> 237.5 type=none, B=0.4615, VI=0, KP=0, K=0 muR2=156.7, muF2=156.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1155, x2=0.0006336, x1p=1, x2p=1 Cluster sequence: pdfwgt=237.5, flux=5.34e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 109.591884106694 , PS = 1.53106853750244e-05 -> 0.00167792685721373 p_lab[0]=Vec4D(461.857209551479,0,0,461.857209551479); p_lab[1]=Vec4D(2.53433733709763,0,0,-2.53433733709771); p_lab[2]=Vec4D(446.470838168617,-4.73480116345553,11.36510241599,446.301047993396); p_lab[3]=Vec4D(17.9207087199585,4.73480116345553,-11.36510241599,13.0218242209837); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.32, \mu_f = 12.32. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.32 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.32 \mu_R = 12.32 } PDF(fla=G, xa=0.1065, ta=151.7) * PDF(flb=G, xb=0.02899, tb=151.7) -> 0.7868 type=none, B=21.61, VI=0, KP=0, K=0 muR2=151.7, muF2=151.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.02899, x2=0.1065, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.7868, flux=1.265e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 17.0011161883404 , PS = 9.49910288125833e-06 -> 0.000161495351769272 p_lab[0]=Vec4D(426.064135993897,0,0,-426.064135993897); p_lab[1]=Vec4D(115.964667520508,0,0,115.964667520508); p_lab[2]=Vec4D(116.202694898179,-0.0687283078117222,12.3117493234352,115.548614905657); p_lab[3]=Vec4D(425.826108616227,0.0687283078117222,-12.3117493234352,-425.648083379046); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.7687, ta=152.3) * PDF(flb=G, xb=0.0006795, tb=152.3) -> 0 type=none, B=3.61, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0006795, x2=0.7687, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.479e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.42, \mu_f = 12.42. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.42 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.42 \mu_R = 12.42 } PDF(fla=G, xa=0.1803, ta=154.2) * PDF(flb=G, xb=0.0007742, tb=154.2) -> 0.03472 type=none, B=0.9264, VI=0, KP=0, K=0 muR2=154.2, muF2=154.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1803, x2=0.0007742, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.03472, flux=2.799e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.0321695058333751 , PS = 1.47959576739151e-05 -> 4.75978646701384e-07 p_lab[0]=Vec4D(721.028509962984,0,0,721.028509962984); p_lab[1]=Vec4D(3.09696820982288,0,0,-3.09696820982309); p_lab[2]=Vec4D(708.630490871861,-3.01886841520404,11.9360935181945,708.52352727225); p_lab[3]=Vec4D(15.4949873009418,3.01886841520404,-11.9360935181945,9.40801448090649); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.006414, ta=151.6) * PDF(flb=G, xb=0.8498, tb=151.6) -> 0 type=none, B=38.18, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.006414, x2=0.8498, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=7.167e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.00171, ta=152.6) * PDF(flb=G, xb=0.2058, tb=152.6) -> -0.07793 type=none, B=2.416, VI=0, KP=0, K=0 muR2=152.6, muF2=152.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2058, x2=0.00171, x1p=1, x2p=1 Cluster sequence: pdfwgt=-0.07793, flux=1.11e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.188285753925809 , PS = 1.32269602428307e-05 -> -2.49044818146809e-06 p_lab[0]=Vec4D(6.8412096188105,0,0,-6.84120961881064); p_lab[1]=Vec4D(823.314120371306,0,0,823.314120371306); p_lab[2]=Vec4D(12.3720142632814,-11.0556349155777,-5.41819449603464,-1.21771997907484); p_lab[3]=Vec4D(817.783315726835,11.0556349155777,5.41819449603464,817.69063073157); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.1327, ta=154.1) * PDF(flb=G, xb=0.00109, tb=154.1) -> 66.89 type=none, B=0.9619, VI=0, KP=0, K=0 muR2=154.1, muF2=154.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00109, x2=0.1327, x1p=1, x2p=1 Cluster sequence: pdfwgt=66.89, flux=2.701e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 64.3451404040517 , PS = 1.47771109617434e-05 -> 0.000950835279599629 p_lab[0]=Vec4D(530.931726655852,0,0,-530.931726655852); p_lab[1]=Vec4D(4.35857628634674,0,0,4.35857628634675); p_lab[2]=Vec4D(522.162489100633,-10.4282275059075,-6.54491910327663,-522.017318801575); p_lab[3]=Vec4D(13.1278138415625,10.4282275059075,6.54491910327663,-4.55583156792682); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.07, \mu_f = 14.07. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.07 -> 'Alpha_QCD'{fac=1.398,cpl=0.118} \mu_F = 14.07 \mu_R = 14.07 } PDF(fla=G, xa=0.001041, ta=198) * PDF(flb=G, xb=0.009699, tb=198) -> 1.656e+05 type=none, B=0.02998, VI=0, KP=0, K=0 muR2=198, muF2=198, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001041, x2=0.009699, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.656e+05, flux=0.0003867, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4965.87282885304 , PS = 5.73331491038746e-05 -> 0.284709127327511 p_lab[0]=Vec4D(4.16562202835198,0,0,4.16562202835198); p_lab[1]=Vec4D(38.7977862572552,0,0,-38.7977862572552); p_lab[2]=Vec4D(17.1672880142598,-7.45417131672687,9.79893999187091,-11.9637737683871); p_lab[3]=Vec4D(25.7961202713474,7.45417131672687,-9.79893999187091,-22.6683904605161); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.67, \mu_f = 12.67. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.67 -> 'Alpha_QCD'{fac=1.43,cpl=0.118} \mu_F = 12.67 \mu_R = 12.67 } PDF(fla=G, xa=0.001241, ta=160.6) * PDF(flb=G, xb=0.03385, tb=160.6) -> 8297 type=none, B=0.2444, VI=0, KP=0, K=0 muR2=160.6, muF2=160.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.03385, x2=0.001241, x1p=1, x2p=1 Cluster sequence: pdfwgt=8297, flux=9.3e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2027.46146672003 , PS = 1.62325019803105e-05 -> 0.032910772273536 p_lab[0]=Vec4D(4.96302049810207,0,0,-4.9630204981021); p_lab[1]=Vec4D(135.405694638224,0,0,135.405694638224); p_lab[2]=Vec4D(127.58046292898,10.8185618595701,5.87729651064638,126.985001579673); p_lab[3]=Vec4D(12.7882522073457,-10.8185618595701,-5.87729651064638,3.45767256044899); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.16, \mu_f = 13.16. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.16 -> 'Alpha_QCD'{fac=1.418,cpl=0.118} \mu_F = 13.16 \mu_R = 13.16 } PDF(fla=G, xa=0.001519, ta=173.1) * PDF(flb=G, xb=0.01252, tb=173.1) -> 5.713e+04 type=none, B=0.08692, VI=0, KP=0, K=0 muR2=173.1, muF2=173.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.01252, x2=0.001519, x1p=1, x2p=1 Cluster sequence: pdfwgt=5.713e+04, flux=0.0002054, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4965.78807887542 , PS = 2.01653999498611e-05 -> 0.100137102676775 p_lab[0]=Vec4D(6.07436780247557,0,0,-6.07436780247558); p_lab[1]=Vec4D(50.0910789296201,0,0,50.0910789296201); p_lab[2]=Vec4D(12.49226281463,1.72973234781174,12.1898285873237,2.11488421583449); p_lab[3]=Vec4D(43.6731839174657,-1.72973234781174,-12.1898285873237,41.90182691131); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.85, \mu_f = 12.85. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.85 -> 'Alpha_QCD'{fac=1.426,cpl=0.118} \mu_F = 12.85 \mu_R = 12.85 } PDF(fla=G, xa=0.0007034, ta=165.1) * PDF(flb=G, xb=0.04116, tb=165.1) -> 1.224e+04 type=none, B=0.1543, VI=0, KP=0, K=0 muR2=165.1, muF2=165.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0007034, x2=0.04116, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.224e+04, flux=0.0001349, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1888.32199778501 , PS = 1.74158587738476e-05 -> 0.0328867492329735 p_lab[0]=Vec4D(2.8136848430999,0,0,2.81368484309991); p_lab[1]=Vec4D(164.635864673998,0,0,-164.635864673998); p_lab[2]=Vec4D(150.0901184602,6.29031536879037,10.583752999034,-149.584289831565); p_lab[3]=Vec4D(17.3594310568979,-6.29031536879037,-10.583752999034,-12.2378899993337); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.4242, ta=154.1) * PDF(flb=G, xb=0.0003445, tb=154.1) -> 0 type=none, B=0.9724, VI=0, KP=0, K=0 muR2=154.1, muF2=154.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.4242, x2=0.0003445, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=2.673e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.5082, ta=151.6) * PDF(flb=G, xb=0.0867, tb=151.6) -> 0 type=none, B=309, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0867, x2=0.5082, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=8.866e-08, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.34, \mu_f = 12.34. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.34 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.34 \mu_R = 12.34 } PDF(fla=G, xa=0.003955, ta=152.3) * PDF(flb=G, xb=0.1341, tb=152.3) -> 9.033 type=none, B=3.668, VI=0, KP=0, K=0 muR2=152.3, muF2=152.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003955, x2=0.1341, x1p=1, x2p=1 Cluster sequence: pdfwgt=9.033, flux=7.364e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 33.1283169696604 , PS = 1.24869430459772e-05 -> 0.000413671407209229 p_lab[0]=Vec4D(15.8209327162509,0,0,15.8209327162508); p_lab[1]=Vec4D(536.471979203334,0,0,-536.471979203334); p_lab[2]=Vec4D(534.136839336381,-6.79713525954474,10.2656148012116,-533.994924359095); p_lab[3]=Vec4D(18.1560725832038,6.79713525954474,-10.2656148012116,13.3438778720117); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 13.39, \mu_f = 13.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 13.39 -> 'Alpha_QCD'{fac=1.413,cpl=0.118} \mu_F = 13.39 \mu_R = 13.39 } PDF(fla=G, xa=0.0002977, ta=179.3) * PDF(flb=G, xb=0.0515, tb=179.3) -> 2.13e+04 type=none, B=0.06265, VI=0, KP=0, K=0 muR2=179.3, muF2=179.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0002977, x2=0.0515, x1p=1, x2p=1 Cluster sequence: pdfwgt=2.13e+04, flux=0.0002548, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1334.35682715609 , PS = 2.31116456890301e-05 -> 0.03083918221197 p_lab[0]=Vec4D(1.19072050860834,0,0,1.19072050860834); p_lab[1]=Vec4D(206.003257235388,0,0,-206.003257235388); p_lab[2]=Vec4D(40.3013393513072,-11.9809798998381,-2.83549213066738,-38.3746538554529); p_lab[3]=Vec4D(166.892638392689,11.9809798998381,2.83549213066738,-166.437882871327); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.51, \mu_f = 12.51. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.51 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.51 \mu_R = 12.51 } PDF(fla=G, xa=0.06638, ta=156.6) * PDF(flb=G, xb=0.001118, tb=156.6) -> 1487 type=none, B=0.4687, VI=0, KP=0, K=0 muR2=156.6, muF2=156.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001118, x2=0.06638, x1p=1, x2p=1 Cluster sequence: pdfwgt=1487, flux=5.266e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 696.741379404207 , PS = 1.52949352435662e-05 -> 0.0106566142795003 p_lab[0]=Vec4D(265.528626768497,0,0,-265.528626768497); p_lab[1]=Vec4D(4.47010982310597,0,0,4.47010982310596); p_lab[2]=Vec4D(256.909112241203,-12.1682008736585,-1.87584180614899,-256.61392802726); p_lab[3]=Vec4D(13.0896243503995,12.1682008736585,1.87584180614899,-4.44458891813083); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.7119, ta=151.6) * PDF(flb=G, xb=0.009389, tb=151.6) -> 0 type=none, B=46.83, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.7119, x2=0.009389, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.844e-07, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.44, \mu_f = 12.44. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.44 -> 'Alpha_QCD'{fac=1.436,cpl=0.118} \mu_F = 12.44 \mu_R = 12.44 } PDF(fla=G, xa=0.000621, ta=154.6) * PDF(flb=G, xb=0.1935, tb=154.6) -> 0.3081 type=none, B=0.7904, VI=0, KP=0, K=0 muR2=154.6, muF2=154.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.000621, x2=0.1935, x1p=1, x2p=1 Cluster sequence: pdfwgt=0.3081, flux=3.251e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 0.24351932945421 , PS = 1.48837576072103e-05 -> 3.62448267226685e-06 p_lab[0]=Vec4D(2.4841413609032,0,0,2.4841413609033); p_lab[1]=Vec4D(773.900212823258,0,0,-773.900212823258); p_lab[2]=Vec4D(18.0025127071178,10.9473444166066,-5.63378604559957,-13.1341756036128); p_lab[3]=Vec4D(758.381841477032,-10.9473444166066,5.63378604559957,-758.28189585873); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.58, \mu_f = 12.58. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.58 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.58 \mu_R = 12.58 } PDF(fla=G, xa=0.00254, ta=158.2) * PDF(flb=G, xb=0.02231, tb=158.2) -> 8480 type=none, B=0.3464, VI=0, KP=0, K=0 muR2=158.2, muF2=158.2, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00254, x2=0.02231, x1p=1, x2p=1 Cluster sequence: pdfwgt=8480, flux=6.894e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 2937.46311030367 , PS = 1.56533479941675e-05 -> 0.045981132285613 p_lab[0]=Vec4D(10.1597425396474,0,0,10.1597425396474); p_lab[1]=Vec4D(89.23597788657,0,0,-89.23597788657); p_lab[2]=Vec4D(85.7795559708258,-1.48223348488465,-12.2223925186392,-84.8913913631331); p_lab[3]=Vec4D(13.6161644553916,1.48223348488465,12.2223925186392,5.81515601621056); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.5, \mu_f = 12.5. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.5 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.5 \mu_R = 12.5 } PDF(fla=G, xa=0.3174, ta=156.3) * PDF(flb=G, xb=0.0002483, tb=156.3) -> 0 type=none, B=0.5011, VI=0, KP=0, K=0 muR2=156.3, muF2=156.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.3174, x2=0.0002483, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=4.956e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.37, \mu_f = 12.37. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.37 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.37 \mu_R = 12.37 } PDF(fla=G, xa=0.003009, ta=153) * PDF(flb=G, xb=0.0843, tb=153) -> 144.6 type=none, B=1.726, VI=0, KP=0, K=0 muR2=153, muF2=153, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.003009, x2=0.0843, x1p=1, x2p=1 Cluster sequence: pdfwgt=144.6, flux=1.54e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 249.563819432139 , PS = 1.38467196691978e-05 -> 0.00345564024725113 p_lab[0]=Vec4D(12.0347545628063,0,0,12.0347545628062); p_lab[1]=Vec4D(337.205345206347,0,0,-337.205345206347); p_lab[2]=Vec4D(15.1001476232182,-12.3081642079604,-0.30494067174243,8.74245750687881); p_lab[3]=Vec4D(334.139952145936,12.3081642079604,0.30494067174243,-333.91304815042); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06758, ta=151.6) * PDF(flb=G, xb=0.1809, tb=151.6) -> -5.695e-06 type=none, B=85.7, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1809, x2=0.06758, x1p=1, x2p=1 Cluster sequence: pdfwgt=-5.695e-06, flux=3.195e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000488128897652363 , PS = 7.22942133046484e-06 -> -3.52888946470428e-09 p_lab[0]=Vec4D(270.308469261377,0,0,-270.308469261377); p_lab[1]=Vec4D(723.688609312762,0,0,723.688609312762); p_lab[2]=Vec4D(723.600762030473,5.87765548003472,-10.8183668379945,723.496011679469); p_lab[3]=Vec4D(270.396316543666,-5.87765548003472,10.8183668379945,-270.115871628083); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.1397, ta=152) * PDF(flb=G, xb=0.005786, tb=152) -> 1.955 type=none, B=5.615, VI=0, KP=0, K=0 muR2=152, muF2=152, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.1397, x2=0.005786, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.955, flux=4.833e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 10.9780705679256 , PS = 1.17531925575381e-05 -> 0.000129027377295072 p_lab[0]=Vec4D(558.715853371378,0,0,558.715853371378); p_lab[1]=Vec4D(23.1438160043051,0,0,-23.1438160043052); p_lab[2]=Vec4D(557.141640682554,-10.6228188321793,6.22411560320796,557.005586944569); p_lab[3]=Vec4D(24.7180286931299,10.6228188321793,-6.22411560320796,-21.4335495774963); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.39, \mu_f = 12.39. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.39 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.39 \mu_R = 12.39 } PDF(fla=G, xa=0.0138, ta=153.6) * PDF(flb=G, xb=0.01306, tb=153.6) -> 1473 type=none, B=1.211, VI=0, KP=0, K=0 muR2=153.6, muF2=153.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0138, x2=0.01306, x1p=1, x2p=1 Cluster sequence: pdfwgt=1473, flux=2.168e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 1783.69751147984 , PS = 1.45338971852203e-05 -> 0.0259240762413814 p_lab[0]=Vec4D(55.2041377902102,0,0,55.2041377902102); p_lab[1]=Vec4D(52.2247465101317,0,0,-52.2247465101317); p_lab[2]=Vec4D(52.2644379815928,0.162970248286394,-12.310862507622,-50.7935781624839); p_lab[3]=Vec4D(55.1644463187491,-0.162970248286394,12.310862507622,53.7729694425624); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.41, \mu_f = 12.41. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.41 -> 'Alpha_QCD'{fac=1.437,cpl=0.118} \mu_F = 12.41 \mu_R = 12.41 } PDF(fla=G, xa=0.001317, ta=154) * PDF(flb=G, xb=0.1164, tb=154) -> 115.2 type=none, B=1.023, VI=0, KP=0, K=0 muR2=154, muF2=154, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001317, x2=0.1164, x1p=1, x2p=1 Cluster sequence: pdfwgt=115.2, flux=2.548e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 117.853800009574 , PS = 1.47441061410732e-05 -> 0.00173764893646997 p_lab[0]=Vec4D(5.26804906197194,0,0,5.26804906197202); p_lab[1]=Vec4D(465.672361117998,0,0,-465.672361117998); p_lab[2]=Vec4D(458.446792463884,6.61728162294522,-10.3824601567274,-458.28143932025); p_lab[3]=Vec4D(12.4936177160861,-6.61728162294522,10.3824601567274,-2.12287273577599); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.62, \mu_f = 12.62. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.62 -> 'Alpha_QCD'{fac=1.431,cpl=0.118} \mu_F = 12.62 \mu_R = 12.62 } PDF(fla=G, xa=0.000504, ta=159.4) * PDF(flb=G, xb=0.096, tb=159.4) -> 881.1 type=none, B=0.2887, VI=0, KP=0, K=0 muR2=159.4, muF2=159.4, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.096, x2=0.000504, x1p=1, x2p=1 Cluster sequence: pdfwgt=881.1, flux=8.073e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 254.384559675246 , PS = 1.59293372870912e-05 -> 0.00405217745169519 p_lab[0]=Vec4D(2.01606733669928,0,0,-2.01606733669928); p_lab[1]=Vec4D(383.99237064327,0,0,383.99237064327); p_lab[2]=Vec4D(364.276431683936,-3.77175998095952,-11.7199710592404,364.068310603104); p_lab[3]=Vec4D(21.7320062960339,3.77175998095952,11.7199710592404,17.9079927034678); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.06289, ta=151.6) * PDF(flb=G, xb=0.2078, tb=151.6) -> -5.169e-05 type=none, B=91.61, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.2078, x2=0.06289, x1p=1, x2p=1 Cluster sequence: pdfwgt=-5.169e-05, flux=2.989e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.00473502919440782 , PS = 7.11997808750018e-06 -> -3.37133041078573e-08 p_lab[0]=Vec4D(251.560543075393,0,0,-251.560543075393); p_lab[1]=Vec4D(831.146423412883,0,0,831.146423412883); p_lab[2]=Vec4D(831.041355636758,10.3893079603378,6.60652519019359,830.950149457594); p_lab[3]=Vec4D(251.665610851518,-10.3893079603378,-6.60652519019359,-251.364269120104); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.72, \mu_f = 12.72. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.72 -> 'Alpha_QCD'{fac=1.429,cpl=0.118} \mu_F = 12.72 \mu_R = 12.72 } PDF(fla=G, xa=0.02549, ta=161.9) * PDF(flb=G, xb=0.00146, tb=161.9) -> 1.43e+04 type=none, B=0.2113, VI=0, KP=0, K=0 muR2=161.9, muF2=161.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.00146, x2=0.02549, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.43e+04, flux=0.0001049, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 3022.38273394716 , PS = 1.65444665508031e-05 -> 0.0500037100455136 p_lab[0]=Vec4D(101.958716615099,0,0,-101.958716615099); p_lab[1]=Vec4D(5.84184835815154,0,0,5.84184835815153); p_lab[2]=Vec4D(12.4053522774412,-12.2802001974461,-0.883503307320365,-1.51949667456519); p_lab[3]=Vec4D(95.3952126958091,12.2802001974461,0.883503307320365,-94.5973715823821); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.52, \mu_f = 12.52. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.52 -> 'Alpha_QCD'{fac=1.434,cpl=0.118} \mu_F = 12.52 \mu_R = 12.52 } PDF(fla=G, xa=0.0001444, ta=156.7) * PDF(flb=G, xb=0.5038, tb=156.7) -> 0 type=none, B=0.4586, VI=0, KP=0, K=0 muR2=156.7, muF2=156.7, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0001444, x2=0.5038, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=5.371e-05, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.33, \mu_f = 12.33. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.33 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.33 \mu_R = 12.33 } PDF(fla=G, xa=0.007822, ta=152.1) * PDF(flb=G, xb=0.0949, tb=152.1) -> 15.32 type=none, B=5.153, VI=0, KP=0, K=0 muR2=152.1, muF2=152.1, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.0949, x2=0.007822, x1p=1, x2p=1 Cluster sequence: pdfwgt=15.32, flux=5.263e-06, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 78.9550194052381 , PS = 1.18998634638085e-05 -> 0.000939553950704685 p_lab[0]=Vec4D(31.2862125580966,0,0,-31.2862125580966); p_lab[1]=Vec4D(379.603496190036,0,0,379.603496190036); p_lab[2]=Vec4D(378.488489789685,7.23639360284766,-9.96084848836012,378.28818777262); p_lab[3]=Vec4D(32.4012189584477,-7.23639360284766,9.96084848836012,-29.9709041406807); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.35, \mu_f = 12.35. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.35 -> 'Alpha_QCD'{fac=1.438,cpl=0.118} \mu_F = 12.35 \mu_R = 12.35 } PDF(fla=G, xa=0.6243, ta=152.5) * PDF(flb=G, xb=0.0006304, tb=152.5) -> 0 type=none, B=2.708, VI=0, KP=0, K=0 muR2=152.5, muF2=152.5, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.6243, x2=0.0006304, x1p=1, x2p=1 Cluster sequence: pdfwgt=0, flux=9.925e-06, counter term=0, no cluster steps } Result is zero. Return. Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.58, \mu_f = 12.58. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.58 -> 'Alpha_QCD'{fac=1.432,cpl=0.118} \mu_F = 12.58 \mu_R = 12.58 } PDF(fla=G, xa=0.0006252, ta=158.3) * PDF(flb=G, xb=0.08892, tb=158.3) -> 921.8 type=none, B=0.3389, VI=0, KP=0, K=0 muR2=158.3, muF2=158.3, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.08892, x2=0.0006252, x1p=1, x2p=1 Cluster sequence: pdfwgt=921.8, flux=7.026e-05, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 312.415147298596 , PS = 1.56836832933652e-05 -> 0.00489982022628122 p_lab[0]=Vec4D(2.50081129548575,0,0,-2.50081129548576); p_lab[1]=Vec4D(355.681454279026,0,0,355.681454279026); p_lab[2]=Vec4D(339.932228946271,-1.91522280969709,12.1620646508977,339.709193842906); p_lab[3]=Vec4D(18.2500366282392,1.91522280969709,-12.1620646508977,13.4714491406334); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 12.31, \mu_f = 12.31. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 12.31 -> 'Alpha_QCD'{fac=1.439,cpl=0.118} \mu_F = 12.31 \mu_R = 12.31 } PDF(fla=G, xa=0.09905, ta=151.6) * PDF(flb=G, xb=0.2361, tb=151.6) -> -1.631e-06 type=none, B=164, VI=0, KP=0, K=0 muR2=151.6, muF2=151.6, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.09905, x2=0.2361, x1p=1, x2p=1 Cluster sequence: pdfwgt=-1.631e-06, flux=1.67e-07, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = -0.000267532118306585 , PS = 6.16339374374268e-06 -> -1.64890578422103e-09 p_lab[0]=Vec4D(396.204588910035,0,0,396.204588910035); p_lab[1]=Vec4D(944.565517647335,0,0,-944.565517647335); p_lab[2]=Vec4D(944.509984540711,-5.03611522085523,11.2348314836348,-944.429736402931); p_lab[3]=Vec4D(396.26012201666,5.03611522085523,-11.2348314836348,396.068807665631); ========================================================== Combined_Selector::Trigger() { PT_Selector PT_Selector::Trigger(1) { 12.31 12.31 } } Single_Process::Differential(2_2__G__G__G__G__MPI, RS:0x0) { Scale_Setter_Base::CalculateScale(2_2__G__G__G__G__MPI) { MPI_Scale_Setter::Calculate(): Set \mu_r = 14.17, \mu_f = 14.17. Coupling_Data::Calculate(0x7ffbb4a39d00): scl = 14.17 -> 'Alpha_QCD'{fac=1.396,cpl=0.118} \mu_F = 14.17 \mu_R = 14.17 } PDF(fla=G, xa=0.001042, ta=200.9) * PDF(flb=G, xb=0.009263, tb=200.9) -> 1.799e+05 type=none, B=0.02735, VI=0, KP=0, K=0 muR2=200.9, muF2=200.9, oqcd=2, oew=0, fl1=21, fl2=21, x1=0.001042, x2=0.009263, x1p=1, x2p=1 Cluster sequence: pdfwgt=1.799e+05, flux=0.0004048, counter term=0, no cluster steps } 2_2__G__G__G__G__MPI ME = 4920.36092936374 , PS = 0.000105515233085386 -> 0.519173030326041 p_lab[0]=Vec4D(4.1674249912954,0,0,4.1674249912954); p_lab[1]=Vec4D(37.0526327145775,0,0,-37.0526327145775); p_lab[2]=Vec4D(22.8360722259486,11.1761563366836,-5.16501931471785,-19.2328442962901); p_lab[3]=Vec4D(18.3839854799244,-11.1761563366836,5.16501931471785,-13.652363426992); ========================================================== -> Success (4 blobs) Blob List with 4 elements { Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [40]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( -> 2) [( 3.0816e+03,-1.7881e-14,-8.9407e-15, 3.0816e+03), p^2=-3.9968e-28, m= 0.0000e+00] (611,607) 0 [I] 1 G 24 ( -> 2) [( 3.0035e+03, 0.0000e+00, 0.0000e+00,-3.0035e+03), p^2= 2.7317e-09, m= 0.0000e+00] (605,612) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.1444e+00, 2.2288e-01, 1.1812e+02), p^2= 2.3883e-12, m= 0.0000e+00] (611, 0) [F] 1 sb 7 ( 2 -> ) [( 2.5209e+02,-2.1347e+00,-9.5948e-01, 2.5208e+02), p^2= 2.1801e-11, m= 0.0000e+00] ( 0,606) [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.3891e+00, 5.6005e-01, 1.2101e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,607) [F] 1 G 9 ( 2 -> ) [( 7.1256e+01, 1.0096e+01, 7.4994e+00, 7.0137e+01), p^2=-1.1676e-10, m= 0.0000e+00] (606,610) [F] 1 G 10 ( 2 -> ) [( 1.4940e+01, 1.2415e+00, 3.3411e+00, 1.4509e+01), p^2=-3.2969e-12, m= 0.0000e+00] (610,613) [F] 1 G 11 ( 2 -> ) [( 1.2882e+01, 4.1381e+00,-2.8164e+00, 1.1870e+01), p^2=-6.1606e-11, m= 0.0000e+00] (613,602) [F] 1 G 12 ( 2 -> ) [( 5.6058e+01,-4.3336e+01,-9.0459e-01, 3.5549e+01), p^2=-9.2361e-11, m= 0.0000e+00] (604,619) [F] 1 G 13 ( 2 -> ) [( 4.7855e+00,-3.3561e+00, 5.1054e-01, 3.3730e+00), p^2= 2.2540e-12, m= 0.0000e+00] (619,616) [F] 1 G 14 ( 2 -> ) [( 3.1914e+00,-2.7137e+00,-6.5225e-01, 1.5477e+00), p^2=-4.9849e-14, m= 0.0000e+00] (616,609) [F] 1 G 15 ( 2 -> ) [( 3.6229e+00,-3.4203e+00, 1.1566e+00,-2.9897e-01), p^2= 3.6882e-13, m= 0.0000e+00] (617,614) [F] 1 G 16 ( 2 -> ) [( 1.4167e+01,-1.3595e+01, 1.8278e+00, 3.5421e+00), p^2=-5.3535e-12, m= 0.0000e+00] (609,617) [F] 1 d 17 ( 2 -> ) [( 3.0787e-01,-3.1961e-02, 2.9718e-01, 7.3787e-02), p^2= 1.1643e-14, m= 0.0000e+00] (614, 0) [F] 1 db 18 ( 2 -> ) [( 1.8208e+00, 3.5140e-01,-1.3738e+00, 1.1422e+00), p^2= 9.3703e-14, m= 0.0000e+00] ( 0,500) [F] 1 d 19 ( 2 -> ) [( 6.2727e+01,-4.6415e+01,-3.6404e+01, 2.1331e+01), p^2=-4.0950e-10, m= 0.0000e+00] (615, 0) [F] 1 s 20 ( 2 -> ) [( 3.9021e+00,-2.7408e+00,-2.7742e+00, 1.3268e-01), p^2= 2.5047e-12, m= 0.0000e+00] (602, 0) [F] 1 sb 21 ( 2 -> ) [( 1.1459e+00,-5.0485e-01,-8.4793e-01, 5.8247e-01), p^2= 2.6197e-12, m= 0.0000e+00] ( 0,615) [F] 1 db 22 ( 2 -> ) [( 8.3643e+00,-6.9665e+00,-3.9243e+00, 2.4554e+00), p^2=-3.8458e-12, m= 0.0000e+00] ( 0,618) [F] 1 G 23 ( 2 -> ) [( 6.1470e+00,-4.7892e+00,-3.7084e+00, 1.0474e+00), p^2=-6.2013e-12, m= 0.0000e+00] (618,604) [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.4474e+00, 2.1311e+00,-1.9521e+02), p^2= 1.3460e-11, m= 0.0000e+00] (603,612) [F] 1 c 26 ( 2 -> ) [( 1.1296e+02, 4.1680e+00,-3.0518e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (605, 0) [F] 1 u 27 ( 2 -> ) [( 2.8718e+01, 1.1199e+01,-2.8069e-01,-2.6442e+01), p^2= 2.8027e-11, m= 0.0000e+00] (608, 0) [F] 1 ub 28 ( 2 -> ) [( 5.9751e+01, 1.9863e+01, 3.9080e+00,-5.6217e+01), p^2= 1.0503e-10, m= 0.0000e+00] ( 0,603) [F] 1 G 29 ( 2 -> ) [( 9.7264e+00, 2.3120e+00,-7.9843e+00,-5.0506e+00), p^2= 1.9895e-13, m= 0.0000e+00] (500,608) [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Blob [32]( 3, QED Radiation , 2 -> 3 @ (0,0,0,0), YFS-type_QED_Corrections_to_ME Incoming particles : [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( 3 -> ) [( 2.3849e+03,-2.1859e+03,-8.0216e+02, 5.1602e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( 3 -> ) [( 2.5220e+03, 2.2742e+03, 8.4061e+02,-6.9411e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( 3 -> ) [( 1.5140e+01,-1.2499e+01, 5.7772e+00,-6.2951e+00), p^2=-1.0658e-13, m= 0.0000e+00] ( 0, 0) Blob [2]( 4, Hard Collision , 2 -> 2 @ (0,0,0,0), none Incoming particles : [G] 1 G 35 ( -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 1 G 36 ( -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 1 G 37 ( 4 -> ) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 1 G 38 ( 4 -> ) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * Weight (1) } trying phase: Signal_Processes -> Nothing (4 blobs) trying phase: Hard_Decays -> Nothing (4 blobs) trying phase: Jet_Evolution:CSSMI_Handler::ClusterConfiguration(): { (0x7ffbb4f32b90): 2 -> 2 { \mu_r = 14.17, \mu_f = 14.17, \mu_q = 14.17, \mu = 14.17 k_T = 14.17, z = 0, phi = 0, kin = 0, K = 0 oew = 0, oqcd = 2, nlo = 0, new = (none), ncl = 0, flag = 0 (0) G (-4.167,-0,-0,-4.167) -8.604e-08 (622,620) [0|0] (1) G (-37.05,-0,-0,37.05) -0 (621,623) [0|0] (2) G (22.84,11.18,-5.165,-19.23) 5.96e-08 (620,621) [0|0] (3) G (18.38,-11.18,5.165,-13.65) -3.722e-07 (623,622) [0|0] } Cluster_Definitions_Base::ReCluster(0x7ffbb4970c20) { (0x7ffbb4f32b90): 2 -> 2 { \mu_r = 14.17, \mu_f = 14.17, \mu_q = 14.17, \mu = 14.17 k_T = 14.17, z = 0, phi = 0, kin = 0, K = 0 oew = 0, oqcd = 2, nlo = 0, new = (none), ncl = 0, flag = 0 (0) G (-4.167,-0,-0,-4.167) -8.604e-08 (622,620) [0|0] (1) G (-37.05,-0,-0,37.05) -0 (621,623) [0|0] (2) G (22.84,11.18,-5.165,-19.23) 5.96e-08 (620,621) [0|0] (3) G (18.38,-11.18,5.165,-13.65) -3.722e-07 (623,622) [0|0] } } CS_Shower::PrepareStandardShower() { k_{T,min} / k_{T,max} = { (0) -> 0 / 14.17 (1) -> 0 / 14.17 (2) -> 0 / 14.17 (3) -> 0 / 14.17 } (0x7ffbb4f32b90): 2 -> 2 { \mu_r = 14.17, \mu_f = 14.17, \mu_q = 14.17, \mu = 14.17 k_T = 14.17, z = 0, phi = 0, kin = 0, K = 0 oew = 0, oqcd = 2, nlo = 0, new = (none), ncl = 0, flag = 0 (0) G (-4.167,-0,-0,-4.167) -8.604e-08 (622,620) [0|0] (1) G (-37.05,-0,-0,37.05) -0 (621,623) [0|0] (2) G (22.84,11.18,-5.165,-19.23) 5.96e-08 (620,621) [0|0] (3) G (18.38,-11.18,5.165,-13.65) -3.722e-07 (623,622) [0|0] } Singlet lists: Singlet parton list from CS_Shower : 0x7ffbb5badf90, jf = 0x0 Parton 0x7ffbb4a6c7f0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (4.167,0,0,4.167) 8.604e-08 0 (622,620)[622,620] (Initial state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb4a16550) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a14bf0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (37.05,0,0,-37.05) 0 0 (621,623)[621,623] (Initial state parton) Colour partners (0x7ffbb4a16550,0x7ffbb4a10d70) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a16550 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (22.84,11.18,-5.165,-19.23) 5.96e-08 0 (620,621)[620,621] (Final state parton) Colour partners (0x7ffbb4a6c7f0,0x7ffbb4a14bf0) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(3)]: G : (18.38,-11.18,5.165,-13.65) 3.722e-07 0 (623,622)[623,622] (Final state parton) Colour partners (0x7ffbb4a14bf0,0x7ffbb4a6c7f0) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 mom sum (-3.553e-15,0,0,0), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- } Jet_Evolution::AttachShowers(): Setting scale for MI { (0x7ffbb4f32b90): 2 -> 2 { \mu_r = 14.17, \mu_f = 14.17, \mu_q = 14.17, \mu = 14.17 k_T = 14.17, z = 0, phi = 0, kin = 0, K = 0 oew = 0, oqcd = 2, nlo = 0, new = (none), ncl = 0, flag = 0 (0) G (-4.167,-0,-0,-4.167) -8.604e-08 (622,620) [0|0] (1) G (-37.05,-0,-0,37.05) -0 (621,623) [0|0] (2) G (22.84,11.18,-5.165,-19.23) 5.96e-08 (620,621) [0|0] (3) G (18.38,-11.18,5.165,-13.65) -3.722e-07 (623,622) [0|0] } } -> p_T = 14.17 Jet_Evolution::DefineInitialConditions(): { [I] 1 G 5 ( -> 2) [( 3.0816e+03,-1.7881e-14,-8.9407e-15, 3.0816e+03), p^2=-3.9968e-28, m= 0.0000e+00] (611,607) 0, beam = 0 [I] 1 G 24 ( -> 2) [( 3.0035e+03, 0.0000e+00, 0.0000e+00,-3.0035e+03), p^2= 2.7317e-09, m= 0.0000e+00] (605,612) 1, beam = 1 } before shower step Singlet parton list from CS_Shower : 0x7ffbb5badf90, jf = 0x0 Parton 0x7ffbb4a6c7f0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (4.167,0,0,4.167) 8.604e-08 0 (622,620)[622,620] (Initial state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb4a16550) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a14bf0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (37.05,0,0,-37.05) 0 0 (621,623)[621,623] (Initial state parton) Colour partners (0x7ffbb4a16550,0x7ffbb4a10d70) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a16550 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (22.84,11.18,-5.165,-19.23) 5.96e-08 0 (620,621)[620,621] (Final state parton) Colour partners (0x7ffbb4a6c7f0,0x7ffbb4a14bf0) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(3)]: G : (18.38,-11.18,5.165,-13.65) 3.722e-07 0 (623,622)[623,622] (Final state parton) Colour partners (0x7ffbb4a14bf0,0x7ffbb4a6c7f0) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 mom sum (-3.553e-15,0,0,0), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- CF_QCD::Coupling(pol=0) { t=86.04, \mu_R^2=86.04 as(t)=0.1812 } CF_QCD::Coupling(pol=0) { t=80.25, \mu_R^2=80.25 as(t)=0.1828 } CF_QCD::Coupling(pol=0) { t=79.55, \mu_R^2=79.55 as(t)=0.183 } CF_QCD::Coupling(pol=0) { t=81.89, \mu_R^2=81.89 as(t)=0.1823 } CF_QCD::Coupling(pol=0) { t=72.22, \mu_R^2=72.22 as(t)=0.1851 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=64.71, \mu_R^2=64.71 as(t)=0.1876 } CF_QCD::Coupling(pol=0) { t=63.02, \mu_R^2=63.02 as(t)=0.1882 } CF_QCD::Coupling(pol=0) { t=77.96, \mu_R^2=77.96 as(t)=0.1834 } CF_QCD::Coupling(pol=0) { t=52.34, \mu_R^2=52.34 as(t)=0.1927 } CF_QCD::Coupling(pol=0) { t=50.57, \mu_R^2=50.57 as(t)=0.1935 } CF_QCD::Coupling(pol=0) { t=23.56, \mu_R^2=23.56 as(t)=0.2145 } CF_QCD::Coupling(pol=0) { t=18.09, \mu_R^2=18.09 as(t)=0.2235 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=16.15, \mu_R^2=16.15 as(t)=0.2278 } CF_QCD::Coupling(pol=0) { t=15.73, \mu_R^2=15.73 as(t)=0.2288 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=15.31, \mu_R^2=15.31 as(t)=0.2299 } CF_QCD::Coupling(pol=0) { t=43.18, \mu_R^2=43.18 as(t)=0.1975 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.93, \mu_R^2=13.93 as(t)=0.2337 } CF_QCD::Coupling(pol=0) { t=8.288, \mu_R^2=8.288 as(t)=0.2572 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.141, \mu_R^2=7.141 as(t)=0.265 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=7.047, \mu_R^2=7.047 as(t)=0.2657 } CF_QCD::Coupling(pol=0) { t=6.686, \mu_R^2=6.686 as(t)=0.2685 } CF_QCD::Coupling(pol=0) { t=9.956, \mu_R^2=9.956 as(t)=0.2484 } CF_QCD::Coupling(pol=0) { t=4.849, \mu_R^2=4.849 as(t)=0.2876 } CF_QCD::Coupling(pol=0) { t=126.2, \mu_R^2=126.2 as(t)=0.1734 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=89.01, \mu_R^2=89.01 as(t)=0.1805 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=55.92, \mu_R^2=55.92 as(t)=0.191 } CF_QCD::Coupling(pol=0) { t=31.76, \mu_R^2=31.76 as(t)=0.2057 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.42, \mu_R^2=31.42 as(t)=0.206 } CF_QCD::Coupling(pol=0) { t=27.28, \mu_R^2=27.28 as(t)=0.2101 } CF_QCD::Coupling(pol=0) { t=21.85, \mu_R^2=21.85 as(t)=0.2167 } CF_QCD::Coupling(pol=0) { t=21.09, \mu_R^2=21.09 as(t)=0.2179 } CF_QCD::Coupling(pol=0) { t=19.2, \mu_R^2=19.2 as(t)=0.2213 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=18.56, \mu_R^2=18.56 as(t)=0.2226 } CF_QCD::Coupling(pol=0) { t=18.12, \mu_R^2=18.12 as(t)=0.2234 } CF_QCD::Coupling(pol=0) { t=11.07, \mu_R^2=11.07 as(t)=0.2435 } CF_QCD::Coupling(pol=0) { t=10.25, \mu_R^2=10.25 as(t)=0.247 } CF_QCD::Coupling(pol=0) { t=10.69, \mu_R^2=10.69 as(t)=0.2451 } CF_QCD::Coupling(pol=0) { t=8.804, \mu_R^2=8.804 as(t)=0.2542 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=8.615, \mu_R^2=8.615 as(t)=0.2553 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=10.9, \mu_R^2=10.9 as(t)=0.2442 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.782, \mu_R^2=6.782 as(t)=0.2677 } CF_QCD::Coupling(pol=0) { t=36.25, \mu_R^2=36.25 as(t)=0.2021 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=6.609, \mu_R^2=6.609 as(t)=0.2692 } CF_QCD::Coupling(pol=0) { t=130.8, \mu_R^2=130.8 as(t)=0.1727 } CF_QCD::Coupling(pol=0) { t=128.6, \mu_R^2=128.6 as(t)=0.173 } CF_QCD::Coupling(pol=0) { t=127.4, \mu_R^2=127.4 as(t)=0.1732 } CF_QCD::Coupling(pol=0) { t=125.9, \mu_R^2=125.9 as(t)=0.1734 } CF_QCD::Coupling(pol=0) { t=122.3, \mu_R^2=122.3 as(t)=0.174 } CF_QCD::Coupling(pol=0) { t=120.3, \mu_R^2=120.3 as(t)=0.1743 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=111.3, \mu_R^2=111.3 as(t)=0.1759 } CF_QCD::Coupling(pol=0) { t=110.3, \mu_R^2=110.3 as(t)=0.1761 } CF_QCD::Coupling(pol=0) { t=102, \mu_R^2=102 as(t)=0.1776 } CF_QCD::Coupling(pol=0) { t=88.23, \mu_R^2=88.23 as(t)=0.1807 } CF_QCD::Coupling(pol=0) { t=84.25, \mu_R^2=84.25 as(t)=0.1817 } CF_QCD::Coupling(pol=0) { t=78.03, \mu_R^2=78.03 as(t)=0.1834 } CF_QCD::Coupling(pol=0) { t=77.94, \mu_R^2=77.94 as(t)=0.1834 } CF_QCD::Coupling(pol=0) { t=76.62, \mu_R^2=76.62 as(t)=0.1838 } CF_QCD::Coupling(pol=0) { t=74.74, \mu_R^2=74.74 as(t)=0.1843 } CF_QCD::Coupling(pol=0) { t=65.82, \mu_R^2=65.82 as(t)=0.1872 } CF_QCD::Coupling(pol=0) { t=65.58, \mu_R^2=65.58 as(t)=0.1873 } CF_QCD::Coupling(pol=0) { t=61.06, \mu_R^2=61.06 as(t)=0.189 } CF_QCD::Coupling(pol=0) { t=57.08, \mu_R^2=57.08 as(t)=0.1906 } CF_QCD::Coupling(pol=0) { t=52.96, \mu_R^2=52.96 as(t)=0.1924 } CF_QCD::Coupling(pol=0) { t=49.08, \mu_R^2=49.08 as(t)=0.1942 } CF_QCD::Coupling(pol=0) { t=48.78, \mu_R^2=48.78 as(t)=0.1944 } CF_QCD::Coupling(pol=0) { t=47.58, \mu_R^2=47.58 as(t)=0.195 } CF_QCD::Coupling(pol=0) { t=47.03, \mu_R^2=47.03 as(t)=0.1953 } CF_QCD::Coupling(pol=0) { t=46.58, \mu_R^2=46.58 as(t)=0.1955 } CF_QCD::Coupling(pol=0) { t=45.43, \mu_R^2=45.43 as(t)=0.1962 } CF_QCD::Coupling(pol=0) { t=44.44, \mu_R^2=44.44 as(t)=0.1967 } CF_QCD::Coupling(pol=0) { t=43.53, \mu_R^2=43.53 as(t)=0.1973 } CF_QCD::Coupling(pol=0) { t=40.99, \mu_R^2=40.99 as(t)=0.1988 } CF_QCD::Coupling(pol=0) { t=40.2, \mu_R^2=40.2 as(t)=0.1993 } CF_QCD::Coupling(pol=0) { t=39.1, \mu_R^2=39.1 as(t)=0.2001 } CF_QCD::Coupling(pol=0) { t=37.94, \mu_R^2=37.94 as(t)=0.2009 } CF_QCD::Coupling(pol=0) { t=37.55, \mu_R^2=37.55 as(t)=0.2011 } CF_QCD::Coupling(pol=0) { t=36.35, \mu_R^2=36.35 as(t)=0.202 } CF_QCD::Coupling(pol=0) { t=35.05, \mu_R^2=35.05 as(t)=0.203 } CF_QCD::Coupling(pol=0) { t=33.58, \mu_R^2=33.58 as(t)=0.2042 } CF_QCD::Coupling(pol=0) { t=104.6, \mu_R^2=104.6 as(t)=0.1771 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=31.51, \mu_R^2=31.51 as(t)=0.206 } CF_QCD::Coupling(pol=0) { t=30.54, \mu_R^2=30.54 as(t)=0.2068 } CF_QCD::Coupling(pol=0) { t=28.21, \mu_R^2=28.21 as(t)=0.2091 } CF_QCD::Coupling(pol=0) { t=27.53, \mu_R^2=27.53 as(t)=0.2098 } CF_QCD::Coupling(pol=0) { t=26.99, \mu_R^2=26.99 as(t)=0.2104 } CF_QCD::Coupling(pol=0) { t=23.81, \mu_R^2=23.81 as(t)=0.2141 } CF_QCD::Coupling(pol=0) { t=22.54, \mu_R^2=22.54 as(t)=0.2156 } CF_QCD::Coupling(pol=0) { t=22.31, \mu_R^2=22.31 as(t)=0.216 } CF_QCD::Coupling(pol=0) { t=22.26, \mu_R^2=22.26 as(t)=0.216 } CF_QCD::Coupling(pol=0) { t=21.37, \mu_R^2=21.37 as(t)=0.2175 } CF_QCD::Coupling(pol=0) { t=21.03, \mu_R^2=21.03 as(t)=0.218 } CF_QCD::Coupling(pol=0) { t=20.09, \mu_R^2=20.09 as(t)=0.2197 } CF_QCD::Coupling(pol=0) { t=19.67, \mu_R^2=19.67 as(t)=0.2204 } CF_QCD::Coupling(pol=0) { t=19.18, \mu_R^2=19.18 as(t)=0.2213 } CF_QCD::Coupling(pol=0) { t=18.92, \mu_R^2=18.92 as(t)=0.2218 } CF_QCD::Coupling(pol=0) { t=18.44, \mu_R^2=18.44 as(t)=0.2228 } CF_QCD::Coupling(pol=0) { t=18.14, \mu_R^2=18.14 as(t)=0.2234 } CF_QCD::Coupling(pol=0) { t=16.97, \mu_R^2=16.97 as(t)=0.2259 } CF_QCD::Coupling(pol=0) { t=16.82, \mu_R^2=16.82 as(t)=0.2262 } CF_QCD::Coupling(pol=0) { t=16.78, \mu_R^2=16.78 as(t)=0.2263 } CF_QCD::Coupling(pol=0) { t=16.35, \mu_R^2=16.35 as(t)=0.2273 } CF_QCD::Coupling(pol=0) { t=16.21, \mu_R^2=16.21 as(t)=0.2277 } CF_QCD::Coupling(pol=0) { t=16.05, \mu_R^2=16.05 as(t)=0.2281 } CF_QCD::Coupling(pol=0) { t=15.67, \mu_R^2=15.67 as(t)=0.229 } CF_QCD::Coupling(pol=0) { t=15.41, \mu_R^2=15.41 as(t)=0.2296 } CF_QCD::Coupling(pol=0) { t=14.97, \mu_R^2=14.97 as(t)=0.2308 } CF_QCD::Coupling(pol=0) { t=14.45, \mu_R^2=14.45 as(t)=0.2322 } CF_QCD::Coupling(pol=0) { t=14.25, \mu_R^2=14.25 as(t)=0.2328 } CF_QCD::Coupling(pol=0) { t=13.99, \mu_R^2=13.99 as(t)=0.2335 } CF_QCD::Coupling(pol=0) { t=13.53, \mu_R^2=13.53 as(t)=0.2349 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=13.3, \mu_R^2=13.3 as(t)=0.2356 } CF_QCD::Coupling(pol=0) { t=13, \mu_R^2=13 as(t)=0.2365 } CF_QCD::Coupling(pol=0) { t=12.54, \mu_R^2=12.54 as(t)=0.2381 } CF_QCD::Coupling(pol=0) { t=12.5, \mu_R^2=12.5 as(t)=0.2382 } CF_QCD::Coupling(pol=0) { t=11.64, \mu_R^2=11.64 as(t)=0.2413 } CF_QCD::Coupling(pol=0) { t=11.59, \mu_R^2=11.59 as(t)=0.2415 } CF_QCD::Coupling(pol=0) { t=11.42, \mu_R^2=11.42 as(t)=0.2421 } CF_QCD::Coupling(pol=0) { t=10.99, \mu_R^2=10.99 as(t)=0.2438 } CF_QCD::Coupling(pol=0) { t=10.78, \mu_R^2=10.78 as(t)=0.2447 } CF_QCD::Coupling(pol=0) { t=10.49, \mu_R^2=10.49 as(t)=0.2459 } CF_QCD::Coupling(pol=0) { t=9.931, \mu_R^2=9.931 as(t)=0.2485 } CF_QCD::Coupling(pol=0) { t=9.817, \mu_R^2=9.817 as(t)=0.249 } CF_QCD::Coupling(pol=0) { t=9.576, \mu_R^2=9.576 as(t)=0.2502 } CF_QCD::Coupling(pol=0) { t=9.57, \mu_R^2=9.57 as(t)=0.2502 } CF_QCD::Coupling(pol=0) { t=9.551, \mu_R^2=9.551 as(t)=0.2503 } CF_QCD::Coupling(pol=0) { t=9.459, \mu_R^2=9.459 as(t)=0.2508 } CF_QCD::Coupling(pol=0) { t=9.059, \mu_R^2=9.059 as(t)=0.2528 } CF_QCD::Coupling(pol=0) { t=8.881, \mu_R^2=8.881 as(t)=0.2538 } CF_QCD::Coupling(pol=0) { t=8.861, \mu_R^2=8.861 as(t)=0.2539 } CF_QCD::Coupling(pol=0) { t=8.845, \mu_R^2=8.845 as(t)=0.254 } CF_QCD::Coupling(pol=0) { t=8.611, \mu_R^2=8.611 as(t)=0.2553 } CF_QCD::Coupling(pol=0) { t=8.281, \mu_R^2=8.281 as(t)=0.2573 } CF_QCD::Coupling(pol=0) { t=7.448, \mu_R^2=7.448 as(t)=0.2627 } CF_QCD::Coupling(pol=0) { t=7.42, \mu_R^2=7.42 as(t)=0.2629 } CF_QCD::Coupling(pol=0) { t=6.879, \mu_R^2=6.879 as(t)=0.267 } CF_QCD::Coupling(pol=0) { t=6.199, \mu_R^2=6.199 as(t)=0.2728 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=5.56, \mu_R^2=5.56 as(t)=0.2791 } CF_QCD::Coupling(pol=0) { t=5.449, \mu_R^2=5.449 as(t)=0.2803 } CF_QCD::Coupling(pol=0) { t=5.274, \mu_R^2=5.274 as(t)=0.2823 } CF_QCD::Coupling(pol=0) { t=5.15, \mu_R^2=5.15 as(t)=0.2838 } CF_QCD::Coupling(pol=0) { t=5.079, \mu_R^2=5.079 as(t)=0.2847 } CF_QCD::Coupling(pol=0) { t=5.038, \mu_R^2=5.038 as(t)=0.2852 } CF_QCD::Coupling(pol=0) { t=4.998, \mu_R^2=4.998 as(t)=0.2857 } CF_QCD::Coupling(pol=0) { t=4.983, \mu_R^2=4.983 as(t)=0.2859 } CF_QCD::Coupling(pol=0) { t=4.905, \mu_R^2=4.905 as(t)=0.2869 } CF_QCD::Coupling(pol=0) { t=4.904, \mu_R^2=4.904 as(t)=0.2869 } CF_QCD::Coupling(pol=0) { t=4.455, \mu_R^2=4.455 as(t)=0.2931 } CF_QCD::Coupling(pol=0) { t=4.352, \mu_R^2=4.352 as(t)=0.2947 } CF_QCD::Coupling(pol=0) { t=4.169, \mu_R^2=4.169 as(t)=0.2976 } CF_QCD::Coupling(pol=0) { t=3.964, \mu_R^2=3.964 as(t)=0.3012 } CF_QCD::Coupling(pol=0) { t=3.848, \mu_R^2=3.848 as(t)=0.3033 } CF_QCD::Coupling(pol=0) { t=3.46, \mu_R^2=3.46 as(t)=0.3111 } CF_QCD::Coupling(pol=0) { t=3.402, \mu_R^2=3.402 as(t)=0.3124 } CF_QCD::Coupling(pol=0) { t=3.04, \mu_R^2=3.04 as(t)=0.3213 } CF_QCD::Coupling(pol=0) { t=2.86, \mu_R^2=2.86 as(t)=0.3264 } CF_QCD::Coupling(pol=0) { t=2.852, \mu_R^2=2.852 as(t)=0.3266 } CF_QCD::Coupling(pol=0) { t=2.752, \mu_R^2=2.752 as(t)=0.3296 } CF_QCD::Coupling(pol=0) { t=2.562, \mu_R^2=2.562 as(t)=0.3359 } CF_QCD::Coupling(pol=0) { t=2.518, \mu_R^2=2.518 as(t)=0.3375 } CF_QCD::Coupling(pol=0) { t=2.462, \mu_R^2=2.462 as(t)=0.3396 } CF_QCD::Coupling(pol=0) { t=1.995, \mu_R^2=1.995 as(t)=0.3591 } CF_QCD::Coupling(pol=0) { t=1.767, \mu_R^2=1.767 as(t)=0.3742 } CF_QCD::Coupling(pol=0) { t=1.713, \mu_R^2=1.713 as(t)=0.3784 } CF_QCD::Coupling(pol=0) { t=1.697, \mu_R^2=1.697 as(t)=0.3796 } CF_QCD::Coupling(pol=0) { t=1.554, \mu_R^2=1.554 as(t)=0.392 } CF_QCD::Coupling(pol=0) { t=1.497, \mu_R^2=1.497 as(t)=0.3976 } CF_QCD::Coupling(pol=0) { t=1.431, \mu_R^2=1.431 as(t)=0.4046 } CF_QCD::Coupling(pol=0) { t=1.325, \mu_R^2=1.325 as(t)=0.4172 } CF_QCD::Coupling(pol=0) { t=1.167, \mu_R^2=1.167 as(t)=0.4402 } CF_QCD::Coupling(pol=0) { t=1.157, \mu_R^2=1.157 as(t)=0.442 } CF_QCD::Coupling(pol=0) { t=1.113, \mu_R^2=1.113 as(t)=0.4497 } CF_QCD::Coupling(pol=0) { t=1.1, \mu_R^2=1.1 as(t)=0.4522 } CF_QCD::Coupling(pol=0) { t=1.094, \mu_R^2=1.094 as(t)=0.4532 } CF_QCD::Coupling(pol=0) { t=1.019, \mu_R^2=1.019 as(t)=0.4687 } CF_QCD::Coupling(pol=0) { t=1.008, \mu_R^2=1.008 as(t)=0.4712 } CF_QCD::Coupling(pol=0) { t=0.944, \mu_R^2=0.944 as(t)=0.4869 } CF_QCD::Coupling(pol=0) { t=0.917, \mu_R^2=0.917 as(t)=0.4943 } CF_QCD::Coupling(pol=0) { t=0.8428, \mu_R^2=0.8428 as(t)=0.5175 } CF_QCD::Coupling(pol=0) { t=0.8149, \mu_R^2=0.8149 as(t)=0.5275 } CF_QCD::Coupling(pol=0) { t=0.7772, \mu_R^2=0.7772 as(t)=0.5425 } CF_QCD::Coupling(pol=0) { t=0.7338, \mu_R^2=0.7338 as(t)=0.5623 } CF_QCD::Coupling(pol=0) { t=0.7279, \mu_R^2=0.7279 as(t)=0.5652 } CF_QCD::Coupling(pol=0) { t=0.7041, \mu_R^2=0.7041 as(t)=0.5776 } CF_QCD::Coupling(pol=0) { t=129.7, \mu_R^2=129.7 as(t)=0.1728 } CF_QCD::Coupling(pol=0) { t=215.7, \mu_R^2=215.7 as(t)=0.1634 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=127.5, \mu_R^2=127.5 as(t)=0.1732 } CF_QCD::Coupling(pol=0) { t=208.6, \mu_R^2=208.6 as(t)=0.164 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=114.9, \mu_R^2=114.9 as(t)=0.1752 } CF_QCD::Coupling(pol=0) { t=106.6, \mu_R^2=106.6 as(t)=0.1767 } CF_QCD::Coupling(pol=0) { t=104.3, \mu_R^2=104.3 as(t)=0.1772 } CF_QCD::Coupling(pol=0) { t=103.4, \mu_R^2=103.4 as(t)=0.1774 } CF_QCD::Coupling(pol=0) { t=99.56, \mu_R^2=99.56 as(t)=0.1782 } CF_QCD::Coupling(pol=0) { t=99.09, \mu_R^2=99.09 as(t)=0.1783 } CF_QCD::Coupling(pol=0) { t=90.81, \mu_R^2=90.81 as(t)=0.1801 } CF_QCD::Coupling(pol=0) { t=88.93, \mu_R^2=88.93 as(t)=0.1805 } CF_QCD::Coupling(pol=0) { t=88.27, \mu_R^2=88.27 as(t)=0.1807 } CF_QCD::Coupling(pol=0) { t=87.61, \mu_R^2=87.61 as(t)=0.1809 } CF_QCD::Coupling(pol=0) { t=78.94, \mu_R^2=78.94 as(t)=0.1831 } CF_QCD::Coupling(pol=0) { t=76.27, \mu_R^2=76.27 as(t)=0.1839 } CF_QCD::Coupling(pol=0) { t=70.45, \mu_R^2=70.45 as(t)=0.1857 } CF_QCD::Coupling(pol=0) { t=70.28, \mu_R^2=70.28 as(t)=0.1857 } CF_QCD::Coupling(pol=0) { t=68.36, \mu_R^2=68.36 as(t)=0.1863 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=60.33, \mu_R^2=60.33 as(t)=0.1892 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=60.08, \mu_R^2=60.08 as(t)=0.1893 } CF_QCD::Coupling(pol=0) { t=132, \mu_R^2=132 as(t)=0.1725 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=55.27, \mu_R^2=55.27 as(t)=0.1913 } CF_QCD::Coupling(pol=0) { t=51.79, \mu_R^2=51.79 as(t)=0.1929 } CF_QCD::Coupling(pol=0) { t=47.81, \mu_R^2=47.81 as(t)=0.1949 } CF_QCD::Coupling(pol=0) { t=45.47, \mu_R^2=45.47 as(t)=0.1962 } CF_QCD::Coupling(pol=0) { t=40.64, \mu_R^2=40.64 as(t)=0.1991 } CF_QCD::Coupling(pol=0) { t=40.08, \mu_R^2=40.08 as(t)=0.1994 } CF_QCD::Coupling(pol=0) { t=39.92, \mu_R^2=39.92 as(t)=0.1995 } CF_QCD::Coupling(pol=0) { t=38.27, \mu_R^2=38.27 as(t)=0.2006 } CF_QCD::Coupling(pol=0) { t=37.52, \mu_R^2=37.52 as(t)=0.2012 } CF_QCD::Coupling(pol=0) { t=35.04, \mu_R^2=35.04 as(t)=0.203 } CF_QCD::Coupling(pol=0) { t=28.17, \mu_R^2=28.17 as(t)=0.2091 } CF_QCD::Coupling(pol=0) { t=27.94, \mu_R^2=27.94 as(t)=0.2094 } CF_QCD::Coupling(pol=0) { t=27.79, \mu_R^2=27.79 as(t)=0.2095 } CF_QCD::Coupling(pol=0) { t=27.24, \mu_R^2=27.24 as(t)=0.2101 } CF_QCD::Coupling(pol=0) { t=26.61, \mu_R^2=26.61 as(t)=0.2108 } CF_QCD::Coupling(pol=0) { t=26.27, \mu_R^2=26.27 as(t)=0.2112 } CF_QCD::Coupling(pol=0) { t=26.16, \mu_R^2=26.16 as(t)=0.2113 } CF_QCD::Coupling(pol=0) { t=23.7, \mu_R^2=23.7 as(t)=0.2143 } CF_QCD::Coupling(pol=0) { t=23.17, \mu_R^2=23.17 as(t)=0.215 } CF_QCD::Coupling(pol=0) { t=22.85, \mu_R^2=22.85 as(t)=0.2151 } CF_QCD::Coupling(pol=0) { t=22.35, \mu_R^2=22.35 as(t)=0.2159 } CF_QCD::Coupling(pol=0) { t=19.55, \mu_R^2=19.55 as(t)=0.2206 } CF_QCD::Coupling(pol=0) { t=19.43, \mu_R^2=19.43 as(t)=0.2209 } CF_QCD::Coupling(pol=0) { t=19.12, \mu_R^2=19.12 as(t)=0.2215 } CF_QCD::Coupling(pol=0) { t=18.67, \mu_R^2=18.67 as(t)=0.2223 } CF_QCD::Coupling(pol=0) { t=17.08, \mu_R^2=17.08 as(t)=0.2257 } CF_QCD::Coupling(pol=0) { t=16.77, \mu_R^2=16.77 as(t)=0.2263 } CF_QCD::Coupling(pol=0) { t=16.21, \mu_R^2=16.21 as(t)=0.2277 } CF_QCD::Coupling(pol=0) { t=15.34, \mu_R^2=15.34 as(t)=0.2298 } CF_QCD::Coupling(pol=0) { t=14.57, \mu_R^2=14.57 as(t)=0.2319 } CF_QCD::Coupling(pol=0) { t=14.3, \mu_R^2=14.3 as(t)=0.2326 } CF_QCD::Coupling(pol=0) { t=13.24, \mu_R^2=13.24 as(t)=0.2358 } CF_QCD::Coupling(pol=0) { t=13.1, \mu_R^2=13.1 as(t)=0.2362 } CF_QCD::Coupling(pol=0) { t=12.19, \mu_R^2=12.19 as(t)=0.2393 } CF_QCD::Coupling(pol=0) { t=11.98, \mu_R^2=11.98 as(t)=0.24 } CF_QCD::Coupling(pol=0) { t=10.01, \mu_R^2=10.01 as(t)=0.2481 } CF_QCD::Coupling(pol=0) { t=9.741, \mu_R^2=9.741 as(t)=0.2494 } CF_QCD::Coupling(pol=0) { t=9.006, \mu_R^2=9.006 as(t)=0.2531 } CF_QCD::Coupling(pol=0) { t=8.713, \mu_R^2=8.713 as(t)=0.2547 } CF_QCD::Coupling(pol=0) { t=7.241, \mu_R^2=7.241 as(t)=0.2642 } CF_QCD::Coupling(pol=0) { t=7.025, \mu_R^2=7.025 as(t)=0.2658 } CF_QCD::Coupling(pol=0) { t=6.997, \mu_R^2=6.997 as(t)=0.2661 } CF_QCD::Coupling(pol=0) { t=6.941, \mu_R^2=6.941 as(t)=0.2665 } CF_QCD::Coupling(pol=0) { t=6.859, \mu_R^2=6.859 as(t)=0.2671 } CF_QCD::Coupling(pol=0) { t=6.645, \mu_R^2=6.645 as(t)=0.2689 } CF_QCD::Coupling(pol=0) { t=6.563, \mu_R^2=6.563 as(t)=0.2696 } CF_QCD::Coupling(pol=0) { t=6.528, \mu_R^2=6.528 as(t)=0.2699 } CF_QCD::Coupling(pol=0) { t=6.473, \mu_R^2=6.473 as(t)=0.2703 } CF_QCD::Coupling(pol=0) { t=6.371, \mu_R^2=6.371 as(t)=0.2712 } CF_QCD::Coupling(pol=0) { t=6.308, \mu_R^2=6.308 as(t)=0.2718 } CF_QCD::Coupling(pol=0) { t=6.17, \mu_R^2=6.17 as(t)=0.273 } CF_QCD::Coupling(pol=0) { t=6.139, \mu_R^2=6.139 as(t)=0.2733 } CF_QCD::Coupling(pol=0) { t=6.049, \mu_R^2=6.049 as(t)=0.2742 } CF_QCD::Coupling(pol=0) { t=5.895, \mu_R^2=5.895 as(t)=0.2757 } CF_QCD::Coupling(pol=0) { t=5.674, \mu_R^2=5.674 as(t)=0.2779 } CF_QCD::Coupling(pol=0) { t=5.63, \mu_R^2=5.63 as(t)=0.2784 } CF_QCD::Coupling(pol=0) { t=4.973, \mu_R^2=4.973 as(t)=0.286 } CF_QCD::Coupling(pol=0) { t=4.771, \mu_R^2=4.771 as(t)=0.2886 } CF_QCD::Coupling(pol=0) { t=4.767, \mu_R^2=4.767 as(t)=0.2887 } CF_QCD::Coupling(pol=0) { t=4.618, \mu_R^2=4.618 as(t)=0.2908 } CF_QCD::Coupling(pol=0) { t=4.338, \mu_R^2=4.338 as(t)=0.2949 } CF_QCD::Coupling(pol=0) { t=4.112, \mu_R^2=4.112 as(t)=0.2986 } CF_QCD::Coupling(pol=0) { t=3.944, \mu_R^2=3.944 as(t)=0.3015 } CF_QCD::Coupling(pol=0) { t=3.829, \mu_R^2=3.829 as(t)=0.3036 } CF_QCD::Coupling(pol=0) { t=3.745, \mu_R^2=3.745 as(t)=0.3052 } CF_QCD::Coupling(pol=0) { t=3.716, \mu_R^2=3.716 as(t)=0.3058 } CF_QCD::Coupling(pol=0) { t=3.508, \mu_R^2=3.508 as(t)=0.3101 } CF_QCD::Coupling(pol=0) { t=3.473, \mu_R^2=3.473 as(t)=0.3108 } CF_QCD::Coupling(pol=0) { t=3.44, \mu_R^2=3.44 as(t)=0.3116 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.44, \mu_R^2=3.44 as(t)=0.3116 } CF_QCD::Coupling(pol=0) { t=3.436, \mu_R^2=3.436 as(t)=0.3116 } CF_QCD::Coupling(pol=0) { t=3.337, \mu_R^2=3.337 as(t)=0.3139 } CF_QCD::Coupling(pol=0) { t=3.215, \mu_R^2=3.215 as(t)=0.3168 } CF_QCD::Coupling(pol=0) { t=3.215, \mu_R^2=3.215 as(t)=0.3168 } CF_QCD::Coupling(pol=0) { t=3.196, \mu_R^2=3.196 as(t)=0.3173 } CF_QCD::Coupling(pol=0) { t=3.163, \mu_R^2=3.163 as(t)=0.3181 } Emission G -> G G at kt = 2.71( 0 .. 14.17 ), z = 0.7569, y = 0.08568 for Parton 0x7ffbb4a6c7f0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (4.167,0,0,4.167) 8.604e-08 0 (622,620)[622,620] (Initial state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb4a16550) k_T start : 14.17 k_T test : 2.71 k_T veto : 1.158e+77(0) x_B : 0.001042 Parton 0x7ffbb4a10d70 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(3)]: G : (18.38,-11.18,5.165,-13.65) 3.722e-07 0 (623,622)[623,622] (Final state parton) Colour partners (0x7ffbb4a14bf0,0x7ffbb4a6c7f0) k_T start : 14.17 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 1 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=4.727, \mu_R^2=4.727 as(t)=0.2892 } CF_QCD::Coupling(pol=0) { t=4.454, \mu_R^2=4.454 as(t)=0.2932 } CF_QCD::Coupling(pol=0) { t=4.754, \mu_R^2=4.754 as(t)=0.2889 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.657, \mu_R^2=4.657 as(t)=0.2902 } CF_QCD::Coupling(pol=0) { t=4.175, \mu_R^2=4.175 as(t)=0.2975 } CF_QCD::Coupling(pol=0) { t=4.032, \mu_R^2=4.032 as(t)=0.2999 } CF_QCD::Coupling(pol=0) { t=3.998, \mu_R^2=3.998 as(t)=0.3006 } CF_QCD::Coupling(pol=0) { t=3.889, \mu_R^2=3.889 as(t)=0.3025 } CF_QCD::Coupling(pol=0) { t=3.821, \mu_R^2=3.821 as(t)=0.3038 } CF_QCD::Coupling(pol=0) { t=3.451, \mu_R^2=3.451 as(t)=0.3113 } CF_QCD::Coupling(pol=0) { t=3.344, \mu_R^2=3.344 as(t)=0.3137 } CF_QCD::Coupling(pol=0) { t=3.166, \mu_R^2=3.166 as(t)=0.318 } CF_QCD::Coupling(pol=0) { t=2.674, \mu_R^2=2.674 as(t)=0.3322 } CF_QCD::Coupling(pol=0) { t=2.583, \mu_R^2=2.583 as(t)=0.3352 } CF_QCD::Coupling(pol=0) { t=2.576, \mu_R^2=2.576 as(t)=0.3355 } CF_QCD::Coupling(pol=0) { t=2.574, \mu_R^2=2.574 as(t)=0.3355 } CF_QCD::Coupling(pol=0) { t=2.57, \mu_R^2=2.57 as(t)=0.3357 } CF_QCD::Coupling(pol=0) { t=2.289, \mu_R^2=2.289 as(t)=0.3464 } CF_QCD::Coupling(pol=0) { t=2.226, \mu_R^2=2.226 as(t)=0.3492 } CF_QCD::Coupling(pol=0) { t=2.065, \mu_R^2=2.065 as(t)=0.3567 } CF_QCD::Coupling(pol=0) { t=2.05, \mu_R^2=2.05 as(t)=0.3575 } CF_QCD::Coupling(pol=0) { t=1.958, \mu_R^2=1.958 as(t)=0.3613 } CF_QCD::Coupling(pol=0) { t=1.954, \mu_R^2=1.954 as(t)=0.3616 } CF_QCD::Coupling(pol=0) { t=1.872, \mu_R^2=1.872 as(t)=0.3668 } CF_QCD::Coupling(pol=0) { t=1.607, \mu_R^2=1.607 as(t)=0.3872 } CF_QCD::Coupling(pol=0) { t=1.59, \mu_R^2=1.59 as(t)=0.3887 } CF_QCD::Coupling(pol=0) { t=1.241, \mu_R^2=1.241 as(t)=0.4287 } CF_QCD::Coupling(pol=0) { t=1.162, \mu_R^2=1.162 as(t)=0.4412 } CF_QCD::Coupling(pol=0) { t=1.146, \mu_R^2=1.146 as(t)=0.4439 } CF_QCD::Coupling(pol=0) { t=1.141, \mu_R^2=1.141 as(t)=0.4447 } CF_QCD::Coupling(pol=0) { t=1.14, \mu_R^2=1.14 as(t)=0.4448 } CF_QCD::Coupling(pol=0) { t=1.085, \mu_R^2=1.085 as(t)=0.455 } CF_QCD::Coupling(pol=0) { t=1.082, \mu_R^2=1.082 as(t)=0.4556 } CF_QCD::Coupling(pol=0) { t=1.023, \mu_R^2=1.023 as(t)=0.4678 } CF_QCD::Coupling(pol=0) { t=1.002, \mu_R^2=1.002 as(t)=0.4725 } CF_QCD::Coupling(pol=0) { t=0.9891, \mu_R^2=0.9891 as(t)=0.4756 } CF_QCD::Coupling(pol=0) { t=0.917, \mu_R^2=0.917 as(t)=0.4943 } CF_QCD::Coupling(pol=0) { t=0.8642, \mu_R^2=0.8642 as(t)=0.5103 } CF_QCD::Coupling(pol=0) { t=0.8241, \mu_R^2=0.8241 as(t)=0.5241 } CF_QCD::Coupling(pol=0) { t=0.7525, \mu_R^2=0.7525 as(t)=0.5534 } CF_QCD::Coupling(pol=0) { t=0.6944, \mu_R^2=0.6944 as(t)=0.583 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6637, \mu_R^2=0.6637 as(t)=0.6016 } CF_QCD::Coupling(pol=0) { t=4.26, \mu_R^2=4.26 as(t)=0.2961 } CF_QCD::Coupling(pol=0) { t=4.072, \mu_R^2=4.072 as(t)=0.2993 } CF_QCD::Coupling(pol=0) { t=3.955, \mu_R^2=3.955 as(t)=0.3013 } CF_QCD::Coupling(pol=0) { t=4.755, \mu_R^2=4.755 as(t)=0.2889 } CF_QCD::Coupling(pol=0) { t=4.599, \mu_R^2=4.599 as(t)=0.291 } CF_QCD::Coupling(pol=0) { t=4.508, \mu_R^2=4.508 as(t)=0.2923 } CF_QCD::Coupling(pol=0) { t=4.414, \mu_R^2=4.414 as(t)=0.2937 } CF_QCD::Coupling(pol=0) { t=4.334, \mu_R^2=4.334 as(t)=0.295 } CF_QCD::Coupling(pol=0) { t=4.32, \mu_R^2=4.32 as(t)=0.2952 } CF_QCD::Coupling(pol=0) { t=4.298, \mu_R^2=4.298 as(t)=0.2955 } CF_QCD::Coupling(pol=0) { t=4.237, \mu_R^2=4.237 as(t)=0.2965 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.107, \mu_R^2=4.107 as(t)=0.2987 } CF_QCD::Coupling(pol=0) { t=3.973, \mu_R^2=3.973 as(t)=0.301 } CF_QCD::Coupling(pol=0) { t=3.863, \mu_R^2=3.863 as(t)=0.303 } CF_QCD::Coupling(pol=0) { t=3.606, \mu_R^2=3.606 as(t)=0.308 } CF_QCD::Coupling(pol=0) { t=3.521, \mu_R^2=3.521 as(t)=0.3098 } CF_QCD::Coupling(pol=0) { t=3.279, \mu_R^2=3.279 as(t)=0.3153 } CF_QCD::Coupling(pol=0) { t=3.231, \mu_R^2=3.231 as(t)=0.3164 } CF_QCD::Coupling(pol=0) { t=3.128, \mu_R^2=3.128 as(t)=0.319 } CF_QCD::Coupling(pol=0) { t=3.125, \mu_R^2=3.125 as(t)=0.3191 } CF_QCD::Coupling(pol=0) { t=2.926, \mu_R^2=2.926 as(t)=0.3245 } CF_QCD::Coupling(pol=0) { t=2.912, \mu_R^2=2.912 as(t)=0.3248 } CF_QCD::Coupling(pol=0) { t=2.652, \mu_R^2=2.652 as(t)=0.3329 } CF_QCD::Coupling(pol=0) { t=2.268, \mu_R^2=2.268 as(t)=0.3473 } CF_QCD::Coupling(pol=0) { t=2.256, \mu_R^2=2.256 as(t)=0.3479 } CF_QCD::Coupling(pol=0) { t=2.254, \mu_R^2=2.254 as(t)=0.3479 } CF_QCD::Coupling(pol=0) { t=2.245, \mu_R^2=2.245 as(t)=0.3483 } CF_QCD::Coupling(pol=0) { t=2.227, \mu_R^2=2.227 as(t)=0.3491 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.163, \mu_R^2=2.163 as(t)=0.352 } CF_QCD::Coupling(pol=0) { t=1.984, \mu_R^2=1.984 as(t)=0.3597 } CF_QCD::Coupling(pol=0) { t=1.852, \mu_R^2=1.852 as(t)=0.3682 } CF_QCD::Coupling(pol=0) { t=1.841, \mu_R^2=1.841 as(t)=0.3689 } CF_QCD::Coupling(pol=0) { t=1.676, \mu_R^2=1.676 as(t)=0.3813 } CF_QCD::Coupling(pol=0) { t=1.595, \mu_R^2=1.595 as(t)=0.3882 } CF_QCD::Coupling(pol=0) { t=1.556, \mu_R^2=1.556 as(t)=0.3918 } CF_QCD::Coupling(pol=0) { t=1.55, \mu_R^2=1.55 as(t)=0.3924 } CF_QCD::Coupling(pol=0) { t=1.471, \mu_R^2=1.471 as(t)=0.4003 } CF_QCD::Coupling(pol=0) { t=1.441, \mu_R^2=1.441 as(t)=0.4035 } CF_QCD::Coupling(pol=0) { t=1.44, \mu_R^2=1.44 as(t)=0.4036 } CF_QCD::Coupling(pol=0) { t=1.339, \mu_R^2=1.339 as(t)=0.4153 } CF_QCD::Coupling(pol=0) { t=1.292, \mu_R^2=1.292 as(t)=0.4215 } CF_QCD::Coupling(pol=0) { t=1.236, \mu_R^2=1.236 as(t)=0.4294 } CF_QCD::Coupling(pol=0) { t=1.21, \mu_R^2=1.21 as(t)=0.4333 } CF_QCD::Coupling(pol=0) { t=1.207, \mu_R^2=1.207 as(t)=0.4339 } CF_QCD::Coupling(pol=0) { t=1.201, \mu_R^2=1.201 as(t)=0.4348 } CF_QCD::Coupling(pol=0) { t=1.107, \mu_R^2=1.107 as(t)=0.4509 } CF_QCD::Coupling(pol=0) { t=1.031, \mu_R^2=1.031 as(t)=0.4662 } CF_QCD::Coupling(pol=0) { t=1.011, \mu_R^2=1.011 as(t)=0.4705 } CF_QCD::Coupling(pol=0) { t=0.9581, \mu_R^2=0.9581 as(t)=0.4832 } CF_QCD::Coupling(pol=0) { t=0.954, \mu_R^2=0.954 as(t)=0.4843 } CF_QCD::Coupling(pol=0) { t=0.9135, \mu_R^2=0.9135 as(t)=0.4953 } CF_QCD::Coupling(pol=0) { t=0.9024, \mu_R^2=0.9024 as(t)=0.4985 } CF_QCD::Coupling(pol=0) { t=0.884, \mu_R^2=0.884 as(t)=0.504 } CF_QCD::Coupling(pol=0) { t=0.884, \mu_R^2=0.884 as(t)=0.5041 } CF_QCD::Coupling(pol=0) { t=0.8466, \mu_R^2=0.8466 as(t)=0.5162 } CF_QCD::Coupling(pol=0) { t=0.8399, \mu_R^2=0.8399 as(t)=0.5185 } CF_QCD::Coupling(pol=0) { t=0.8377, \mu_R^2=0.8377 as(t)=0.5193 } CF_QCD::Coupling(pol=0) { t=0.8367, \mu_R^2=0.8367 as(t)=0.5196 } CF_QCD::Coupling(pol=0) { t=0.8302, \mu_R^2=0.8302 as(t)=0.5219 } CF_QCD::Coupling(pol=0) { t=0.8204, \mu_R^2=0.8204 as(t)=0.5255 } CF_QCD::Coupling(pol=0) { t=0.7975, \mu_R^2=0.7975 as(t)=0.5342 } CF_QCD::Coupling(pol=0) { t=0.7814, \mu_R^2=0.7814 as(t)=0.5408 } CF_QCD::Coupling(pol=0) { t=0.7682, \mu_R^2=0.7682 as(t)=0.5464 } CF_QCD::Coupling(pol=0) { t=0.7129, \mu_R^2=0.7129 as(t)=0.5729 } CF_QCD::Coupling(pol=0) { t=0.6989, \mu_R^2=0.6989 as(t)=0.5805 } CF_QCD::Coupling(pol=0) { t=0.6811, \mu_R^2=0.6811 as(t)=0.5908 } CF_QCD::Coupling(pol=0) { t=4.696, \mu_R^2=4.696 as(t)=0.2897 } CF_QCD::Coupling(pol=0) { t=4.224, \mu_R^2=4.224 as(t)=0.2967 } CF_QCD::Coupling(pol=0) { t=4.025, \mu_R^2=4.025 as(t)=0.3001 } CF_QCD::Coupling(pol=0) { t=3.627, \mu_R^2=3.627 as(t)=0.3076 } CF_QCD::Coupling(pol=0) { t=3.538, \mu_R^2=3.538 as(t)=0.3094 } CF_QCD::Coupling(pol=0) { t=3.416, \mu_R^2=3.416 as(t)=0.3121 } CF_QCD::Coupling(pol=0) { t=3.19, \mu_R^2=3.19 as(t)=0.3174 } CF_QCD::Coupling(pol=0) { t=3.016, \mu_R^2=3.016 as(t)=0.322 } CF_QCD::Coupling(pol=0) { t=2.716, \mu_R^2=2.716 as(t)=0.3308 } CF_QCD::Coupling(pol=0) { t=2.712, \mu_R^2=2.712 as(t)=0.3309 } CF_QCD::Coupling(pol=0) { t=2.346, \mu_R^2=2.346 as(t)=0.3441 } CF_QCD::Coupling(pol=0) { t=2.149, \mu_R^2=2.149 as(t)=0.3527 } CF_QCD::Coupling(pol=0) { t=2.111, \mu_R^2=2.111 as(t)=0.3545 } CF_QCD::Coupling(pol=0) { t=2.051, \mu_R^2=2.051 as(t)=0.3574 } CF_QCD::Coupling(pol=0) { t=1.782, \mu_R^2=1.782 as(t)=0.3731 } CF_QCD::Coupling(pol=0) { t=1.325, \mu_R^2=1.325 as(t)=0.4171 } CF_QCD::Coupling(pol=0) { t=1.319, \mu_R^2=1.319 as(t)=0.4179 } CF_QCD::Coupling(pol=0) { t=1.209, \mu_R^2=1.209 as(t)=0.4335 } CF_QCD::Coupling(pol=0) { t=1.202, \mu_R^2=1.202 as(t)=0.4346 } CF_QCD::Coupling(pol=0) { t=1.103, \mu_R^2=1.103 as(t)=0.4516 } CF_QCD::Coupling(pol=0) { t=0.9744, \mu_R^2=0.9744 as(t)=0.4792 } CF_QCD::Coupling(pol=0) { t=0.8887, \mu_R^2=0.8887 as(t)=0.5026 } CF_QCD::Coupling(pol=0) { t=0.8608, \mu_R^2=0.8608 as(t)=0.5114 } CF_QCD::Coupling(pol=0) { t=0.8223, \mu_R^2=0.8223 as(t)=0.5248 } Emission G -> G G at kt = 2.598( 0 .. 2.71 ), z = 0.8288, y = 0.07051 for Parton 0x7ffbb5b98890 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (5.506,0,0,5.506) 2.797e-07 0 (624,620)[624,620] (Initial state parton) Colour partners (0x7ffbb4a10f00,0x7ffbb4a16550) k_T start : 2.71 k_T test : 2.598 k_T veto : 1.158e+77(0) x_B : 0.001376 Parton 0x7ffbb4a16550 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (22.84,11.18,-5.165,-19.23) 5.96e-08 0 (620,621)[620,621] (Final state parton) Colour partners (0x7ffbb5b98890,0x7ffbb4a14bf0) k_T start : 2.71 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 2 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=4.23, \mu_R^2=4.23 as(t)=0.2966 } CF_QCD::Coupling(pol=0) { t=3.754, \mu_R^2=3.754 as(t)=0.305 } CF_QCD::Coupling(pol=0) { t=3.637, \mu_R^2=3.637 as(t)=0.3074 } CF_QCD::Coupling(pol=0) { t=3.602, \mu_R^2=3.602 as(t)=0.3081 } CF_QCD::Coupling(pol=0) { t=3.391, \mu_R^2=3.391 as(t)=0.3127 } CF_QCD::Coupling(pol=0) { t=3.232, \mu_R^2=3.232 as(t)=0.3164 } CF_QCD::Coupling(pol=0) { t=3.077, \mu_R^2=3.077 as(t)=0.3203 } CF_QCD::Coupling(pol=0) { t=3.043, \mu_R^2=3.043 as(t)=0.3212 } CF_QCD::Coupling(pol=0) { t=2.593, \mu_R^2=2.593 as(t)=0.3349 } CF_QCD::Coupling(pol=0) { t=2.411, \mu_R^2=2.411 as(t)=0.3415 } CF_QCD::Coupling(pol=0) { t=2.141, \mu_R^2=2.141 as(t)=0.353 } CF_QCD::Coupling(pol=0) { t=1.847, \mu_R^2=1.847 as(t)=0.3685 } CF_QCD::Coupling(pol=0) { t=1.677, \mu_R^2=1.677 as(t)=0.3813 } CF_QCD::Coupling(pol=0) { t=1.631, \mu_R^2=1.631 as(t)=0.3851 } CF_QCD::Coupling(pol=0) { t=1.575, \mu_R^2=1.575 as(t)=0.3901 } CF_QCD::Coupling(pol=0) { t=1.574, \mu_R^2=1.574 as(t)=0.3902 } CF_QCD::Coupling(pol=0) { t=1.445, \mu_R^2=1.445 as(t)=0.4031 } CF_QCD::Coupling(pol=0) { t=1.374, \mu_R^2=1.374 as(t)=0.4111 } CF_QCD::Coupling(pol=0) { t=1.199, \mu_R^2=1.199 as(t)=0.4351 } CF_QCD::Coupling(pol=0) { t=1.146, \mu_R^2=1.146 as(t)=0.4439 } CF_QCD::Coupling(pol=0) { t=1.132, \mu_R^2=1.132 as(t)=0.4463 } CF_QCD::Coupling(pol=0) { t=1.009, \mu_R^2=1.009 as(t)=0.471 } CF_QCD::Coupling(pol=0) { t=0.9, \mu_R^2=0.9 as(t)=0.4992 } CF_QCD::Coupling(pol=0) { t=0.8982, \mu_R^2=0.8982 as(t)=0.4998 } CF_QCD::Coupling(pol=0) { t=0.7608, \mu_R^2=0.7608 as(t)=0.5497 } CF_QCD::Coupling(pol=0) { t=4.221, \mu_R^2=4.221 as(t)=0.2968 } CF_QCD::Coupling(pol=0) { t=3.954, \mu_R^2=3.954 as(t)=0.3013 } CF_QCD::Coupling(pol=0) { t=3.582, \mu_R^2=3.582 as(t)=0.3085 } CF_QCD::Coupling(pol=0) { t=3.556, \mu_R^2=3.556 as(t)=0.3091 } CF_QCD::Coupling(pol=0) { t=3.197, \mu_R^2=3.197 as(t)=0.3172 } CF_QCD::Coupling(pol=0) { t=3.138, \mu_R^2=3.138 as(t)=0.3187 } CF_QCD::Coupling(pol=0) { t=2.895, \mu_R^2=2.895 as(t)=0.3253 } CF_QCD::Coupling(pol=0) { t=2.541, \mu_R^2=2.541 as(t)=0.3367 } CF_QCD::Coupling(pol=0) { t=2.415, \mu_R^2=2.415 as(t)=0.3414 } CF_QCD::Coupling(pol=0) { t=2.288, \mu_R^2=2.288 as(t)=0.3465 } CF_QCD::Coupling(pol=0) { t=2.062, \mu_R^2=2.062 as(t)=0.3569 } CF_QCD::Coupling(pol=0) { t=2.028, \mu_R^2=2.028 as(t)=0.3586 } CF_QCD::Coupling(pol=0) { t=1.928, \mu_R^2=1.928 as(t)=0.3632 } CF_QCD::Coupling(pol=0) { t=1.467, \mu_R^2=1.467 as(t)=0.4007 } CF_QCD::Coupling(pol=0) { t=1.397, \mu_R^2=1.397 as(t)=0.4084 } CF_QCD::Coupling(pol=0) { t=1.334, \mu_R^2=1.334 as(t)=0.416 } CF_QCD::Coupling(pol=0) { t=1.111, \mu_R^2=1.111 as(t)=0.4501 } CF_QCD::Coupling(pol=0) { t=1.062, \mu_R^2=1.062 as(t)=0.4595 } CF_QCD::Coupling(pol=0) { t=1.057, \mu_R^2=1.057 as(t)=0.4605 } CF_QCD::Coupling(pol=0) { t=1.012, \mu_R^2=1.012 as(t)=0.4703 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=4.459, \mu_R^2=4.459 as(t)=0.2931 } CF_QCD::Coupling(pol=0) { t=3.106, \mu_R^2=3.106 as(t)=0.3196 } CF_QCD::Coupling(pol=0) { t=5.42, \mu_R^2=5.42 as(t)=0.2807 } CF_QCD::Coupling(pol=0) { t=2.709, \mu_R^2=2.709 as(t)=0.331 } CF_QCD::Coupling(pol=0) { t=4.374, \mu_R^2=4.374 as(t)=0.2944 } CF_QCD::Coupling(pol=0) { t=9.329, \mu_R^2=9.329 as(t)=0.2514 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.885, \mu_R^2=3.885 as(t)=0.3026 } CF_QCD::Coupling(pol=0) { t=3.789, \mu_R^2=3.789 as(t)=0.3044 } CF_QCD::Coupling(pol=0) { t=3.554, \mu_R^2=3.554 as(t)=0.3091 } CF_QCD::Coupling(pol=0) { t=3.46, \mu_R^2=3.46 as(t)=0.3111 } CF_QCD::Coupling(pol=0) { t=3.209, \mu_R^2=3.209 as(t)=0.3169 } CF_QCD::Coupling(pol=0) { t=2.943, \mu_R^2=2.943 as(t)=0.324 } CF_QCD::Coupling(pol=0) { t=2.721, \mu_R^2=2.721 as(t)=0.3306 } CF_QCD::Coupling(pol=0) { t=2.653, \mu_R^2=2.653 as(t)=0.3328 } CF_QCD::Coupling(pol=0) { t=2.498, \mu_R^2=2.498 as(t)=0.3383 } CF_QCD::Coupling(pol=0) { t=2.39, \mu_R^2=2.39 as(t)=0.3424 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.961, \mu_R^2=1.961 as(t)=0.3611 } CF_QCD::Coupling(pol=0) { t=1.881, \mu_R^2=1.881 as(t)=0.3663 } CF_QCD::Coupling(pol=0) { t=1.881, \mu_R^2=1.881 as(t)=0.3663 } CF_QCD::Coupling(pol=0) { t=1.788, \mu_R^2=1.788 as(t)=0.3727 } CF_QCD::Coupling(pol=0) { t=1.637, \mu_R^2=1.637 as(t)=0.3846 } CF_QCD::Coupling(pol=0) { t=1.528, \mu_R^2=1.528 as(t)=0.3946 } CF_QCD::Coupling(pol=0) { t=1.513, \mu_R^2=1.513 as(t)=0.396 } CF_QCD::Coupling(pol=0) { t=1.493, \mu_R^2=1.493 as(t)=0.398 } CF_QCD::Coupling(pol=0) { t=1.365, \mu_R^2=1.365 as(t)=0.4122 } CF_QCD::Coupling(pol=0) { t=1.364, \mu_R^2=1.364 as(t)=0.4124 } CF_QCD::Coupling(pol=0) { t=1.27, \mu_R^2=1.27 as(t)=0.4246 } CF_QCD::Coupling(pol=0) { t=1.224, \mu_R^2=1.224 as(t)=0.4312 } CF_QCD::Coupling(pol=0) { t=1.213, \mu_R^2=1.213 as(t)=0.433 } CF_QCD::Coupling(pol=0) { t=1.151, \mu_R^2=1.151 as(t)=0.443 } CF_QCD::Coupling(pol=0) { t=1.004, \mu_R^2=1.004 as(t)=0.4722 } CF_QCD::Coupling(pol=0) { t=0.9957, \mu_R^2=0.9957 as(t)=0.474 } CF_QCD::Coupling(pol=0) { t=0.8976, \mu_R^2=0.8976 as(t)=0.4999 } CF_QCD::Coupling(pol=0) { t=0.857, \mu_R^2=0.857 as(t)=0.5127 } CF_QCD::Coupling(pol=0) { t=0.6963, \mu_R^2=0.6963 as(t)=0.5819 } CF_QCD::Coupling(pol=0) { t=0.672, \mu_R^2=0.672 as(t)=0.5963 } CF_QCD::Coupling(pol=0) { t=0.6618, \mu_R^2=0.6618 as(t)=0.6028 } CF_QCD::Coupling(pol=0) { t=4.219, \mu_R^2=4.219 as(t)=0.2968 } CF_QCD::Coupling(pol=0) { t=3.664, \mu_R^2=3.664 as(t)=0.3068 } CF_QCD::Coupling(pol=0) { t=3.642, \mu_R^2=3.642 as(t)=0.3073 } CF_QCD::Coupling(pol=0) { t=3.168, \mu_R^2=3.168 as(t)=0.318 } CF_QCD::Coupling(pol=0) { t=2.9, \mu_R^2=2.9 as(t)=0.3252 } CF_QCD::Coupling(pol=0) { t=2.51, \mu_R^2=2.51 as(t)=0.3378 } CF_QCD::Coupling(pol=0) { t=2.344, \mu_R^2=2.344 as(t)=0.3442 } CF_QCD::Coupling(pol=0) { t=2.322, \mu_R^2=2.322 as(t)=0.3451 } CF_QCD::Coupling(pol=0) { t=2.302, \mu_R^2=2.302 as(t)=0.3459 } CF_QCD::Coupling(pol=0) { t=2.236, \mu_R^2=2.236 as(t)=0.3487 } CF_QCD::Coupling(pol=0) { t=2.211, \mu_R^2=2.211 as(t)=0.3498 } CF_QCD::Coupling(pol=0) { t=2.187, \mu_R^2=2.187 as(t)=0.3509 } CF_QCD::Coupling(pol=0) { t=2.145, \mu_R^2=2.145 as(t)=0.3529 } CF_QCD::Coupling(pol=0) { t=2.107, \mu_R^2=2.107 as(t)=0.3547 } CF_QCD::Coupling(pol=0) { t=2.064, \mu_R^2=2.064 as(t)=0.3568 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.06, \mu_R^2=2.06 as(t)=0.357 } CF_QCD::Coupling(pol=0) { t=1.912, \mu_R^2=1.912 as(t)=0.3642 } CF_QCD::Coupling(pol=0) { t=1.778, \mu_R^2=1.778 as(t)=0.3734 } CF_QCD::Coupling(pol=0) { t=1.752, \mu_R^2=1.752 as(t)=0.3754 } CF_QCD::Coupling(pol=0) { t=1.721, \mu_R^2=1.721 as(t)=0.3778 } CF_QCD::Coupling(pol=0) { t=1.339, \mu_R^2=1.339 as(t)=0.4154 } CF_QCD::Coupling(pol=0) { t=1.257, \mu_R^2=1.257 as(t)=0.4264 } CF_QCD::Coupling(pol=0) { t=1.22, \mu_R^2=1.22 as(t)=0.4318 } CF_QCD::Coupling(pol=0) { t=1.184, \mu_R^2=1.184 as(t)=0.4374 } CF_QCD::Coupling(pol=0) { t=1.06, \mu_R^2=1.06 as(t)=0.46 } CF_QCD::Coupling(pol=0) { t=1.05, \mu_R^2=1.05 as(t)=0.4621 } CF_QCD::Coupling(pol=0) { t=0.9965, \mu_R^2=0.9965 as(t)=0.4739 } CF_QCD::Coupling(pol=0) { t=0.9666, \mu_R^2=0.9666 as(t)=0.4811 } CF_QCD::Coupling(pol=0) { t=0.9215, \mu_R^2=0.9215 as(t)=0.4931 } CF_QCD::Coupling(pol=0) { t=0.8988, \mu_R^2=0.8988 as(t)=0.4996 } CF_QCD::Coupling(pol=0) { t=0.8842, \mu_R^2=0.8842 as(t)=0.504 } CF_QCD::Coupling(pol=0) { t=0.8823, \mu_R^2=0.8823 as(t)=0.5046 } CF_QCD::Coupling(pol=0) { t=0.8541, \mu_R^2=0.8541 as(t)=0.5136 } CF_QCD::Coupling(pol=0) { t=0.8056, \mu_R^2=0.8056 as(t)=0.5311 } CF_QCD::Coupling(pol=0) { t=0.7944, \mu_R^2=0.7944 as(t)=0.5355 } Emission G -> G G at kt = 2.385( 0 .. 2.598 ), z = 0.3802, y = 0.08852 for Parton 0x7ffbb5d6d310 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (6.643,0,0,6.643) 4.345e-07 0 (624,625)[624,625] (Initial state parton) Colour partners (0x7ffbb4a10f00,0x7ffbb5cc3300) k_T start : 2.598 k_T test : 2.385 k_T veto : 1.158e+77(0) x_B : 0.001661 Parton 0x7ffbb5cc3300 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (1.942,-1.613,0.3473,-1.024) 6.2e-08 0 (625,620)[625,620] (Final state parton) Colour partners (0x7ffbb5d6d310,0x7ffbb4a16550) k_T start : 2.598 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 3 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=3.673, \mu_R^2=3.673 as(t)=0.3066 } CF_QCD::Coupling(pol=0) { t=3.721, \mu_R^2=3.721 as(t)=0.3057 } CF_QCD::Coupling(pol=0) { t=3.147, \mu_R^2=3.147 as(t)=0.3185 } CF_QCD::Coupling(pol=0) { t=3.097, \mu_R^2=3.097 as(t)=0.3198 } CF_QCD::Coupling(pol=0) { t=2.867, \mu_R^2=2.867 as(t)=0.3262 } CF_QCD::Coupling(pol=0) { t=2.461, \mu_R^2=2.461 as(t)=0.3396 } CF_QCD::Coupling(pol=0) { t=2.317, \mu_R^2=2.317 as(t)=0.3453 } CF_QCD::Coupling(pol=0) { t=2.305, \mu_R^2=2.305 as(t)=0.3458 } CF_QCD::Coupling(pol=0) { t=2.286, \mu_R^2=2.286 as(t)=0.3466 } CF_QCD::Coupling(pol=0) { t=1.795, \mu_R^2=1.795 as(t)=0.3722 } CF_QCD::Coupling(pol=0) { t=1.774, \mu_R^2=1.774 as(t)=0.3737 } CF_QCD::Coupling(pol=0) { t=1.663, \mu_R^2=1.663 as(t)=0.3824 } CF_QCD::Coupling(pol=0) { t=1.649, \mu_R^2=1.649 as(t)=0.3836 } CF_QCD::Coupling(pol=0) { t=1.598, \mu_R^2=1.598 as(t)=0.388 } CF_QCD::Coupling(pol=0) { t=1.305, \mu_R^2=1.305 as(t)=0.4198 } CF_QCD::Coupling(pol=0) { t=1.268, \mu_R^2=1.268 as(t)=0.4249 } CF_QCD::Coupling(pol=0) { t=1.052, \mu_R^2=1.052 as(t)=0.4616 } CF_QCD::Coupling(pol=0) { t=0.9696, \mu_R^2=0.9696 as(t)=0.4804 } CF_QCD::Coupling(pol=0) { t=0.8879, \mu_R^2=0.8879 as(t)=0.5028 } CF_QCD::Coupling(pol=0) { t=0.7536, \mu_R^2=0.7536 as(t)=0.5529 } CF_QCD::Coupling(pol=0) { t=0.7353, \mu_R^2=0.7353 as(t)=0.5615 } CF_QCD::Coupling(pol=0) { t=0.7249, \mu_R^2=0.7249 as(t)=0.5667 } CF_QCD::Coupling(pol=0) { t=0.7002, \mu_R^2=0.7002 as(t)=0.5798 } CF_QCD::Coupling(pol=0) { t=0.6925, \mu_R^2=0.6925 as(t)=0.5841 } CF_QCD::Coupling(pol=0) { t=0.8326, \mu_R^2=0.8326 as(t)=0.5211 } CF_QCD::Coupling(pol=0) { t=3.694, \mu_R^2=3.694 as(t)=0.3062 } CF_QCD::Coupling(pol=0) { t=9.146, \mu_R^2=9.146 as(t)=0.2524 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.276, \mu_R^2=3.276 as(t)=0.3153 } CF_QCD::Coupling(pol=0) { t=3.203, \mu_R^2=3.203 as(t)=0.3171 } CF_QCD::Coupling(pol=0) { t=2.745, \mu_R^2=2.745 as(t)=0.3299 } CF_QCD::Coupling(pol=0) { t=2.266, \mu_R^2=2.266 as(t)=0.3474 } CF_QCD::Coupling(pol=0) { t=2.252, \mu_R^2=2.252 as(t)=0.3481 } CF_QCD::Coupling(pol=0) { t=2.039, \mu_R^2=2.039 as(t)=0.358 } CF_QCD::Coupling(pol=0) { t=1.8, \mu_R^2=1.8 as(t)=0.3718 } CF_QCD::Coupling(pol=0) { t=1.718, \mu_R^2=1.718 as(t)=0.3779 } CF_QCD::Coupling(pol=0) { t=1.694, \mu_R^2=1.694 as(t)=0.3798 } CF_QCD::Coupling(pol=0) { t=1.628, \mu_R^2=1.628 as(t)=0.3853 } CF_QCD::Coupling(pol=0) { t=1.599, \mu_R^2=1.599 as(t)=0.3879 } CF_QCD::Coupling(pol=0) { t=1.513, \mu_R^2=1.513 as(t)=0.396 } CF_QCD::Coupling(pol=0) { t=1.458, \mu_R^2=1.458 as(t)=0.4017 } CF_QCD::Coupling(pol=0) { t=1.414, \mu_R^2=1.414 as(t)=0.4064 } CF_QCD::Coupling(pol=0) { t=1.409, \mu_R^2=1.409 as(t)=0.407 } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4398 } CF_QCD::Coupling(pol=0) { t=1.044, \mu_R^2=1.044 as(t)=0.4633 } CF_QCD::Coupling(pol=0) { t=0.9934, \mu_R^2=0.9934 as(t)=0.4746 } CF_QCD::Coupling(pol=0) { t=0.9559, \mu_R^2=0.9559 as(t)=0.4838 } CF_QCD::Coupling(pol=0) { t=0.7855, \mu_R^2=0.7855 as(t)=0.5391 } CF_QCD::Coupling(pol=0) { t=0.7372, \mu_R^2=0.7372 as(t)=0.5606 } CF_QCD::Coupling(pol=0) { t=0.7361, \mu_R^2=0.7361 as(t)=0.5611 } CF_QCD::Coupling(pol=0) { t=0.6802, \mu_R^2=0.6802 as(t)=0.5913 } CF_QCD::Coupling(pol=0) { t=3.366, \mu_R^2=3.366 as(t)=0.3132 } CF_QCD::Coupling(pol=0) { t=3.718, \mu_R^2=3.718 as(t)=0.3058 } CF_QCD::Coupling(pol=0) { t=3.601, \mu_R^2=3.601 as(t)=0.3081 } CF_QCD::Coupling(pol=0) { t=3.537, \mu_R^2=3.537 as(t)=0.3095 } CF_QCD::Coupling(pol=0) { t=3.476, \mu_R^2=3.476 as(t)=0.3108 } CF_QCD::Coupling(pol=0) { t=3.205, \mu_R^2=3.205 as(t)=0.317 } CF_QCD::Coupling(pol=0) { t=2.358, \mu_R^2=2.358 as(t)=0.3436 } CF_QCD::Coupling(pol=0) { t=2.188, \mu_R^2=2.188 as(t)=0.3509 } CF_QCD::Coupling(pol=0) { t=1.796, \mu_R^2=1.796 as(t)=0.3721 } CF_QCD::Coupling(pol=0) { t=1.755, \mu_R^2=1.755 as(t)=0.3751 } CF_QCD::Coupling(pol=0) { t=1.696, \mu_R^2=1.696 as(t)=0.3797 } CF_QCD::Coupling(pol=0) { t=1.655, \mu_R^2=1.655 as(t)=0.3831 } CF_QCD::Coupling(pol=0) { t=1.582, \mu_R^2=1.582 as(t)=0.3894 } CF_QCD::Coupling(pol=0) { t=1.338, \mu_R^2=1.338 as(t)=0.4155 } CF_QCD::Coupling(pol=0) { t=1.337, \mu_R^2=1.337 as(t)=0.4157 } CF_QCD::Coupling(pol=0) { t=1.324, \mu_R^2=1.324 as(t)=0.4173 } CF_QCD::Coupling(pol=0) { t=1.216, \mu_R^2=1.216 as(t)=0.4324 } CF_QCD::Coupling(pol=0) { t=1.206, \mu_R^2=1.206 as(t)=0.434 } CF_QCD::Coupling(pol=0) { t=1.092, \mu_R^2=1.092 as(t)=0.4537 } CF_QCD::Coupling(pol=0) { t=1.07, \mu_R^2=1.07 as(t)=0.4579 } CF_QCD::Coupling(pol=0) { t=1.056, \mu_R^2=1.056 as(t)=0.4608 } CF_QCD::Coupling(pol=0) { t=0.8541, \mu_R^2=0.8541 as(t)=0.5137 } CF_QCD::Coupling(pol=0) { t=0.8465, \mu_R^2=0.8465 as(t)=0.5162 } CF_QCD::Coupling(pol=0) { t=0.8465, \mu_R^2=0.8465 as(t)=0.5162 } CF_QCD::Coupling(pol=0) { t=0.8371, \mu_R^2=0.8371 as(t)=0.5195 } CF_QCD::Coupling(pol=0) { t=0.7929, \mu_R^2=0.7929 as(t)=0.5361 } CF_QCD::Coupling(pol=0) { t=0.7809, \mu_R^2=0.7809 as(t)=0.541 } CF_QCD::Coupling(pol=0) { t=0.7619, \mu_R^2=0.7619 as(t)=0.5491 } CF_QCD::Coupling(pol=0) { t=0.7195, \mu_R^2=0.7195 as(t)=0.5695 } CF_QCD::Coupling(pol=0) { t=0.6979, \mu_R^2=0.6979 as(t)=0.581 } CF_QCD::Coupling(pol=0) { t=0.6763, \mu_R^2=0.6763 as(t)=0.5937 } CF_QCD::Coupling(pol=0) { t=0.661, \mu_R^2=0.661 as(t)=0.6033 } CF_QCD::Coupling(pol=0) { t=3.479, \mu_R^2=3.479 as(t)=0.3107 } CF_QCD::Coupling(pol=0) { t=3.009, \mu_R^2=3.009 as(t)=0.3221 } CF_QCD::Coupling(pol=0) { t=2.927, \mu_R^2=2.927 as(t)=0.3244 } CF_QCD::Coupling(pol=0) { t=2.545, \mu_R^2=2.545 as(t)=0.3365 } CF_QCD::Coupling(pol=0) { t=2.487, \mu_R^2=2.487 as(t)=0.3386 } CF_QCD::Coupling(pol=0) { t=1.765, \mu_R^2=1.765 as(t)=0.3744 } CF_QCD::Coupling(pol=0) { t=1.753, \mu_R^2=1.753 as(t)=0.3753 } CF_QCD::Coupling(pol=0) { t=1.579, \mu_R^2=1.579 as(t)=0.3897 } CF_QCD::Coupling(pol=0) { t=1.383, \mu_R^2=1.383 as(t)=0.4101 } CF_QCD::Coupling(pol=0) { t=1.322, \mu_R^2=1.322 as(t)=0.4176 } CF_QCD::Coupling(pol=0) { t=1.182, \mu_R^2=1.182 as(t)=0.4378 } CF_QCD::Coupling(pol=0) { t=1.152, \mu_R^2=1.152 as(t)=0.4429 } CF_QCD::Coupling(pol=0) { t=1.102, \mu_R^2=1.102 as(t)=0.4517 } CF_QCD::Coupling(pol=0) { t=0.8881, \mu_R^2=0.8881 as(t)=0.5028 } CF_QCD::Coupling(pol=0) { t=0.8814, \mu_R^2=0.8814 as(t)=0.5049 } CF_QCD::Coupling(pol=0) { t=0.8603, \mu_R^2=0.8603 as(t)=0.5116 } CF_QCD::Coupling(pol=0) { t=0.8272, \mu_R^2=0.8272 as(t)=0.523 } CF_QCD::Coupling(pol=0) { t=0.7635, \mu_R^2=0.7635 as(t)=0.5484 } CF_QCD::Coupling(pol=0) { t=0.6645, \mu_R^2=0.6645 as(t)=0.601 } Emission G -> G G at kt = 2.359( 0 .. 2.385 ), z = 0.652, y = 0.1087 for Parton 0x7ffbb2ea3fe0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(0)]: G : (17.48,0,0,17.48) 1.169e-06 0 (624,626)[624,626] (Initial state parton) Colour partners (0x7ffbb4a10f00,0x7ffbb2ea7d30) k_T start : 2.385 k_T test : 2.359 k_T veto : 1.158e+77(0) x_B : 0.004369 Parton 0x7ffbb4a10f00 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.488,-1.801,2.893,0.7433) 4.215e-08 0 (622,624)[622,624] (Final state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb2ea3fe0) k_T start : 2.385 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 4 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=3.447, \mu_R^2=3.447 as(t)=0.3114 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.532, \mu_R^2=3.532 as(t)=0.3096 } CF_QCD::Coupling(pol=0) { t=3.644, \mu_R^2=3.644 as(t)=0.3072 } CF_QCD::Coupling(pol=0) { t=3.396, \mu_R^2=3.396 as(t)=0.3125 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.706, \mu_R^2=2.706 as(t)=0.3311 } CF_QCD::Coupling(pol=0) { t=2.701, \mu_R^2=2.701 as(t)=0.3313 } CF_QCD::Coupling(pol=0) { t=2.424, \mu_R^2=2.424 as(t)=0.341 } CF_QCD::Coupling(pol=0) { t=2.345, \mu_R^2=2.345 as(t)=0.3441 } CF_QCD::Coupling(pol=0) { t=2.242, \mu_R^2=2.242 as(t)=0.3485 } CF_QCD::Coupling(pol=0) { t=2.172, \mu_R^2=2.172 as(t)=0.3516 } CF_QCD::Coupling(pol=0) { t=2.145, \mu_R^2=2.145 as(t)=0.3528 } CF_QCD::Coupling(pol=0) { t=1.793, \mu_R^2=1.793 as(t)=0.3723 } CF_QCD::Coupling(pol=0) { t=1.582, \mu_R^2=1.582 as(t)=0.3894 } CF_QCD::Coupling(pol=0) { t=1.385, \mu_R^2=1.385 as(t)=0.4099 } CF_QCD::Coupling(pol=0) { t=1.283, \mu_R^2=1.283 as(t)=0.4228 } CF_QCD::Coupling(pol=0) { t=1.247, \mu_R^2=1.247 as(t)=0.4278 } CF_QCD::Coupling(pol=0) { t=1.232, \mu_R^2=1.232 as(t)=0.4301 } CF_QCD::Coupling(pol=0) { t=1.186, \mu_R^2=1.186 as(t)=0.4371 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.17, \mu_R^2=1.17 as(t)=0.4398 } CF_QCD::Coupling(pol=0) { t=1.163, \mu_R^2=1.163 as(t)=0.4409 } CF_QCD::Coupling(pol=0) { t=1.088, \mu_R^2=1.088 as(t)=0.4545 } CF_QCD::Coupling(pol=0) { t=0.9986, \mu_R^2=0.9986 as(t)=0.4734 } CF_QCD::Coupling(pol=0) { t=0.8935, \mu_R^2=0.8935 as(t)=0.5012 } CF_QCD::Coupling(pol=0) { t=0.8812, \mu_R^2=0.8812 as(t)=0.5049 } CF_QCD::Coupling(pol=0) { t=0.8377, \mu_R^2=0.8377 as(t)=0.5193 } CF_QCD::Coupling(pol=0) { t=0.8237, \mu_R^2=0.8237 as(t)=0.5243 } CF_QCD::Coupling(pol=0) { t=0.7511, \mu_R^2=0.7511 as(t)=0.554 } CF_QCD::Coupling(pol=0) { t=0.7491, \mu_R^2=0.7491 as(t)=0.555 } CF_QCD::Coupling(pol=0) { t=0.73, \mu_R^2=0.73 as(t)=0.5642 } CF_QCD::Coupling(pol=0) { t=0.7167, \mu_R^2=0.7167 as(t)=0.5709 } CF_QCD::Coupling(pol=0) { t=0.7084, \mu_R^2=0.7084 as(t)=0.5753 } CF_QCD::Coupling(pol=0) { t=0.6767, \mu_R^2=0.6767 as(t)=0.5934 } CF_QCD::Coupling(pol=0) { t=3.313, \mu_R^2=3.313 as(t)=0.3144 } CF_QCD::Coupling(pol=0) { t=3.255, \mu_R^2=3.255 as(t)=0.3158 } CF_QCD::Coupling(pol=0) { t=2.807, \mu_R^2=2.807 as(t)=0.3279 } CF_QCD::Coupling(pol=0) { t=9.544, \mu_R^2=9.544 as(t)=0.2503 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=2.561, \mu_R^2=2.561 as(t)=0.336 } CF_QCD::Coupling(pol=0) { t=2.428, \mu_R^2=2.428 as(t)=0.3409 } CF_QCD::Coupling(pol=0) { t=2.289, \mu_R^2=2.289 as(t)=0.3465 } CF_QCD::Coupling(pol=0) { t=2.238, \mu_R^2=2.238 as(t)=0.3486 } CF_QCD::Coupling(pol=0) { t=2.202, \mu_R^2=2.202 as(t)=0.3502 } CF_QCD::Coupling(pol=0) { t=2.006, \mu_R^2=2.006 as(t)=0.3584 } CF_QCD::Coupling(pol=0) { t=1.858, \mu_R^2=1.858 as(t)=0.3678 } CF_QCD::Coupling(pol=0) { t=1.528, \mu_R^2=1.528 as(t)=0.3945 } CF_QCD::Coupling(pol=0) { t=1.193, \mu_R^2=1.193 as(t)=0.4361 } CF_QCD::Coupling(pol=0) { t=1.161, \mu_R^2=1.161 as(t)=0.4413 } CF_QCD::Coupling(pol=0) { t=1.069, \mu_R^2=1.069 as(t)=0.4582 } CF_QCD::Coupling(pol=0) { t=0.9591, \mu_R^2=0.9591 as(t)=0.483 } CF_QCD::Coupling(pol=0) { t=0.9585, \mu_R^2=0.9585 as(t)=0.4832 } CF_QCD::Coupling(pol=0) { t=0.7769, \mu_R^2=0.7769 as(t)=0.5427 } CF_QCD::Coupling(pol=0) { t=0.7411, \mu_R^2=0.7411 as(t)=0.5587 } CF_QCD::Coupling(pol=0) { t=0.7083, \mu_R^2=0.7083 as(t)=0.5754 } CF_QCD::Coupling(pol=0) { t=0.7048, \mu_R^2=0.7048 as(t)=0.5772 } CF_QCD::Coupling(pol=0) { t=0.697, \mu_R^2=0.697 as(t)=0.5816 } CF_QCD::Coupling(pol=0) { t=0.6952, \mu_R^2=0.6952 as(t)=0.5826 } CF_QCD::Coupling(pol=0) { t=1.632, \mu_R^2=1.632 as(t)=0.385 } CF_QCD::Coupling(pol=0) { t=1.171, \mu_R^2=1.171 as(t)=0.4396 } CF_QCD::Coupling(pol=0) { t=1.379, \mu_R^2=1.379 as(t)=0.4105 } CF_QCD::Coupling(pol=0) { t=3.934, \mu_R^2=3.934 as(t)=0.3017 } CF_QCD::Coupling(pol=0) { t=3.541, \mu_R^2=3.541 as(t)=0.3094 } CF_QCD::Coupling(pol=0) { t=3.35, \mu_R^2=3.35 as(t)=0.3136 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.202, \mu_R^2=3.202 as(t)=0.3171 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=3.191, \mu_R^2=3.191 as(t)=0.3174 } CF_QCD::Coupling(pol=0) { t=2.953, \mu_R^2=2.953 as(t)=0.3237 } CF_QCD::Coupling(pol=0) { t=2.799, \mu_R^2=2.799 as(t)=0.3282 } CF_QCD::Coupling(pol=0) { t=2.793, \mu_R^2=2.793 as(t)=0.3284 } CF_QCD::Coupling(pol=0) { t=2.654, \mu_R^2=2.654 as(t)=0.3328 } CF_QCD::Coupling(pol=0) { t=2.626, \mu_R^2=2.626 as(t)=0.3338 } CF_QCD::Coupling(pol=0) { t=2.328, \mu_R^2=2.328 as(t)=0.3448 } CF_QCD::Coupling(pol=0) { t=2.05, \mu_R^2=2.05 as(t)=0.3574 } CF_QCD::Coupling(pol=0) { t=1.865, \mu_R^2=1.865 as(t)=0.3673 } CF_QCD::Coupling(pol=0) { t=1.863, \mu_R^2=1.863 as(t)=0.3675 } CF_QCD::Coupling(pol=0) { t=1.856, \mu_R^2=1.856 as(t)=0.368 } CF_QCD::Coupling(pol=0) { t=1.811, \mu_R^2=1.811 as(t)=0.371 } CF_QCD::Coupling(pol=0) { t=1.641, \mu_R^2=1.641 as(t)=0.3843 } CF_QCD::Coupling(pol=0) { t=1.595, \mu_R^2=1.595 as(t)=0.3883 } CF_QCD::Coupling(pol=0) { t=1.497, \mu_R^2=1.497 as(t)=0.3976 } CF_QCD::Coupling(pol=0) { t=1.483, \mu_R^2=1.483 as(t)=0.399 } CF_QCD::Coupling(pol=0) { t=3.293, \mu_R^2=3.293 as(t)=0.3149 } CF_QCD::Coupling(pol=0) { t=3.002, \mu_R^2=3.002 as(t)=0.3223 } CF_QCD::Coupling(pol=0) { t=2.439, \mu_R^2=2.439 as(t)=0.3404 } CF_QCD::Coupling(pol=0) { t=2.317, \mu_R^2=2.317 as(t)=0.3453 } CF_QCD::Coupling(pol=0) { t=2.17, \mu_R^2=2.17 as(t)=0.3517 } CF_QCD::Coupling(pol=0) { t=1.279, \mu_R^2=1.279 as(t)=0.4233 } CF_QCD::Coupling(pol=0) { t=1.075, \mu_R^2=1.075 as(t)=0.4571 } CF_QCD::Coupling(pol=0) { t=1.044, \mu_R^2=1.044 as(t)=0.4633 } CF_QCD::Coupling(pol=0) { t=0.9444, \mu_R^2=0.9444 as(t)=0.4868 } CF_QCD::Coupling(pol=0) { t=0.9417, \mu_R^2=0.9417 as(t)=0.4875 } CF_QCD::Coupling(pol=0) { t=0.8782, \mu_R^2=0.8782 as(t)=0.5059 } CF_QCD::Coupling(pol=0) { t=0.7748, \mu_R^2=0.7748 as(t)=0.5436 } CF_QCD::Coupling(pol=0) { t=0.7536, \mu_R^2=0.7536 as(t)=0.5529 } CF_QCD::Coupling(pol=0) { t=0.7091, \mu_R^2=0.7091 as(t)=0.5749 } Emission G -> G G at kt = 1.499( 0 .. 2.359 ), z = 0.1147, y = 0.06937 for Parton 0x7ffbb4a16550 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(2)]: G : (22.03,12.79,-5.512,-17.07) 4.5e-07 0 (620,621)[620,621] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb4a14bf0) k_T start : 2.359 k_T test : 1.499 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5cc3300 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.978,-3.745,0.4146,1.274) 2.126e-07 0 (625,620)[625,620] (Final state parton) Colour partners (0x7ffbb2ea7d30,0x7ffbb4a16550) k_T start : 2.359 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 5 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=1.026, \mu_R^2=1.026 as(t)=0.4672 } CF_QCD::Coupling(pol=0) { t=1.003, \mu_R^2=1.003 as(t)=0.4723 } CF_QCD::Coupling(pol=0) { t=0.9905, \mu_R^2=0.9905 as(t)=0.4753 } CF_QCD::Coupling(pol=0) { t=0.9826, \mu_R^2=0.9826 as(t)=0.4772 } CF_QCD::Coupling(pol=0) { t=0.9613, \mu_R^2=0.9613 as(t)=0.4824 } CF_QCD::Coupling(pol=0) { t=0.9534, \mu_R^2=0.9534 as(t)=0.4845 } CF_QCD::Coupling(pol=0) { t=0.9391, \mu_R^2=0.9391 as(t)=0.4882 } CF_QCD::Coupling(pol=0) { t=0.9037, \mu_R^2=0.9037 as(t)=0.4981 } CF_QCD::Coupling(pol=0) { t=0.8867, \mu_R^2=0.8867 as(t)=0.5032 } CF_QCD::Coupling(pol=0) { t=0.8827, \mu_R^2=0.8827 as(t)=0.5045 } CF_QCD::Coupling(pol=0) { t=0.8531, \mu_R^2=0.8531 as(t)=0.514 } CF_QCD::Coupling(pol=0) { t=0.8176, \mu_R^2=0.8176 as(t)=0.5265 } CF_QCD::Coupling(pol=0) { t=0.7682, \mu_R^2=0.7682 as(t)=0.5464 } CF_QCD::Coupling(pol=0) { t=0.7184, \mu_R^2=0.7184 as(t)=0.57 } CF_QCD::Coupling(pol=0) { t=1.357, \mu_R^2=1.357 as(t)=0.4131 } CF_QCD::Coupling(pol=0) { t=1.186, \mu_R^2=1.186 as(t)=0.4372 } CF_QCD::Coupling(pol=0) { t=1.055, \mu_R^2=1.055 as(t)=0.461 } CF_QCD::Coupling(pol=0) { t=0.8879, \mu_R^2=0.8879 as(t)=0.5028 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7014, \mu_R^2=0.7014 as(t)=0.5791 } CF_QCD::Coupling(pol=0) { t=1.009, \mu_R^2=1.009 as(t)=0.471 } CF_QCD::Coupling(pol=0) { t=0.9336, \mu_R^2=0.9336 as(t)=0.4897 } CF_QCD::Coupling(pol=0) { t=1.252, \mu_R^2=1.252 as(t)=0.4271 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=1.221, \mu_R^2=1.221 as(t)=0.4317 } CF_QCD::Coupling(pol=0) { t=1.192, \mu_R^2=1.192 as(t)=0.4363 } CF_QCD::Coupling(pol=0) { t=0.9684, \mu_R^2=0.9684 as(t)=0.4806 } CF_QCD::Coupling(pol=0) { t=0.8667, \mu_R^2=0.8667 as(t)=0.5095 } CF_QCD::Coupling(pol=0) { t=0.853, \mu_R^2=0.853 as(t)=0.514 } CF_QCD::Coupling(pol=0) { t=0.7287, \mu_R^2=0.7287 as(t)=0.5648 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.9294, \mu_R^2=0.9294 as(t)=0.4909 } CF_QCD::Coupling(pol=0) { t=1.32, \mu_R^2=1.32 as(t)=0.4179 } CF_QCD::Coupling(pol=0) { t=1.3, \mu_R^2=1.3 as(t)=0.4205 } CF_QCD::Coupling(pol=0) { t=1.191, \mu_R^2=1.191 as(t)=0.4364 } CF_QCD::Coupling(pol=0) { t=1.157, \mu_R^2=1.157 as(t)=0.4419 } CF_QCD::Coupling(pol=0) { t=1.144, \mu_R^2=1.144 as(t)=0.4443 } CF_QCD::Coupling(pol=0) { t=1.138, \mu_R^2=1.138 as(t)=0.4453 } CF_QCD::Coupling(pol=0) { t=0.9973, \mu_R^2=0.9973 as(t)=0.4737 } CF_QCD::Coupling(pol=0) { t=0.9576, \mu_R^2=0.9576 as(t)=0.4834 } CF_QCD::Coupling(pol=0) { t=0.9507, \mu_R^2=0.9507 as(t)=0.4852 } CF_QCD::Coupling(pol=0) { t=0.8811, \mu_R^2=0.8811 as(t)=0.5049 } CF_QCD::Coupling(pol=0) { t=0.872, \mu_R^2=0.872 as(t)=0.5078 } CF_QCD::Coupling(pol=0) { t=0.8123, \mu_R^2=0.8123 as(t)=0.5285 } CF_QCD::Coupling(pol=0) { t=0.7955, \mu_R^2=0.7955 as(t)=0.535 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.6935, \mu_R^2=0.6935 as(t)=0.5836 } CF_QCD::Coupling(pol=0) { t=0.6615, \mu_R^2=0.6615 as(t)=0.603 } Emission G -> G G at kt = 1.187( 0 .. 1.499 ), z = 0.8993, y = 0.05913 for Parton 0x7ffbb5d909d0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=1 [(2)]: G : (19.97,10.42,-4.665,-16.38) 2.458e-07 0 (620,628)[620,628] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb5cd5a40) k_T start : 1.499 k_T test : 1.187 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5cc3300 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.702,-3.486,0.3859,1.186) 1.949e-07 0 (625,620)[625,620] (Final state parton) Colour partners (0x7ffbb2ea7d30,0x7ffbb5d909d0) k_T start : 1.499 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 6 vs. maxem = 18446744073709551615 CF_QCD::Coupling(pol=0) { t=0.8098, \mu_R^2=0.8098 as(t)=0.5295 } CF_QCD::Coupling(pol=0) { t=0.7936, \mu_R^2=0.7936 as(t)=0.5358 } CF_QCD::Coupling(pol=0) { t=0.726, \mu_R^2=0.726 as(t)=0.5662 } CF_QCD::Coupling(pol=0) { t=0.6902, \mu_R^2=0.6902 as(t)=0.5854 } CF_QCD::Coupling(pol=0) { t=0.9269, \mu_R^2=0.9269 as(t)=0.4916 } CF_QCD::Coupling(pol=0) { t=0.7426, \mu_R^2=0.7426 as(t)=0.558 } CF_QCD::Coupling(pol=0) { t=0.7355, \mu_R^2=0.7355 as(t)=0.5614 } CF_QCD::Coupling(pol=1) { } CF_QCD::Coupling(pol=0) { t=0.7204, \mu_R^2=0.7204 as(t)=0.569 } CF_QCD::Coupling(pol=0) { t=0.7111, \mu_R^2=0.7111 as(t)=0.5739 } CF_QCD::Coupling(pol=0) { t=0.7073, \mu_R^2=0.7073 as(t)=0.5759 } CF_QCD::Coupling(pol=0) { t=0.6699, \mu_R^2=0.6699 as(t)=0.5976 } CF_QCD::Coupling(pol=0) { t=0.8097, \mu_R^2=0.8097 as(t)=0.5295 } CF_QCD::Coupling(pol=0) { t=0.7821, \mu_R^2=0.7821 as(t)=0.5405 } CF_QCD::Coupling(pol=0) { t=0.7541, \mu_R^2=0.7541 as(t)=0.5527 } CF_QCD::Coupling(pol=0) { t=0.6749, \mu_R^2=0.6749 as(t)=0.5945 } CF_QCD::Coupling(pol=0) { t=0.7509, \mu_R^2=0.7509 as(t)=0.5541 } CF_QCD::Coupling(pol=0) { t=0.9065, \mu_R^2=0.9065 as(t)=0.4973 } CF_QCD::Coupling(pol=0) { t=0.891, \mu_R^2=0.891 as(t)=0.5019 } CF_QCD::Coupling(pol=0) { t=0.8789, \mu_R^2=0.8789 as(t)=0.5056 } CF_QCD::Coupling(pol=0) { t=0.8666, \mu_R^2=0.8666 as(t)=0.5096 } CF_QCD::Coupling(pol=0) { t=0.8201, \mu_R^2=0.8201 as(t)=0.5256 } CF_QCD::Coupling(pol=0) { t=0.8191, \mu_R^2=0.8191 as(t)=0.526 } CF_QCD::Coupling(pol=0) { t=0.7661, \mu_R^2=0.7661 as(t)=0.5473 } CF_QCD::Coupling(pol=0) { t=0.7059, \mu_R^2=0.7059 as(t)=0.5767 } CF_QCD::Coupling(pol=0) { t=0.697, \mu_R^2=0.697 as(t)=0.5815 } CF_QCD::Coupling(pol=0) { t=0.6699, \mu_R^2=0.6699 as(t)=0.5977 } Emission G -> G G at kt = 1.023( 0 .. 1.187 ), z = 0.2822, y = 0.1008 for Parton 0x7ffbb5d6d310 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=-1 [(0)]: G : (11.37,-0.8592,2.441,11.07) 5.615e-07 0 (624,627)[624,627] (Final state parton) Colour partners (0x7ffbb4a10f00,0x7ffbb5cc1bf0) k_T start : 1.187 k_T test : 1.023 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a10f00 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (1.446,-0.9418,0.4525,-1) 2.545e-07 0 (622,624)[622,624] (Final state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb5d6d310) k_T start : 1.187 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Shower::MakeKinematics(0) { Shower::UpdateDaughters() { } sw = 1, w = 1 } nem = 7 vs. maxem = 18446744073709551615 No emission after shower step with 7 of 7 emission(s) Singlet parton list from CS_Shower : 0x7ffbb5badf90, jf = 0x0 Parton 0x7ffbb5cc1bf0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (26.8,0,0,26.8) 1.746e-06 0 (627,626)[627,626] (Initial state parton) Colour partners (0x7ffbb5d909d0,0x7ffbb2ea7d30) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 0.006701 Parton 0x7ffbb5d87cc0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.722,-1.351,0.6505,3.407) 1.244e-07 0 (624,630)[624,630] (Final state parton) Colour partners (0x7ffbb4a10f00,0x7ffbb5d909d0) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5d909d0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (7.793,0.3967,1.836,7.563) 4.081e-07 0 (630,627)[630,627] (Final state parton) Colour partners (0x7ffbb5d87cc0,0x7ffbb5cc1bf0) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb2ea7d30 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (8.796,2.132,-0.06735,8.534) 6.566e-07 0 (626,625)[626,625] (Final state parton) Colour partners (0x7ffbb5cc1bf0,0x7ffbb5cc3300) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5cc3300 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (3.483,-3.279,0.3631,1.116) 1.86e-07 0 (625,620)[625,620] (Final state parton) Colour partners (0x7ffbb2ea7d30,0x7ffbb5c704f0) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a10f00 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(0)]: G : (1.3,-0.8468,0.4069,-0.8992) 2.259e-07 0 (622,624)[622,624] (Final state parton) Colour partners (0x7ffbb4a10d70,0x7ffbb5d87cc0) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a14bf0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(1)]: G : (37.05,0,0,-37.05) 0 0 (621,623)[621,623] (Initial state parton) Colour partners (0x7ffbb5cd5a40,0x7ffbb4a10d70) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 0.009263 Parton 0x7ffbb5cd5a40 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (2.339,2.106,-0.819,-0.6016) 3.942e-08 0 (628,621)[628,621] (Final state parton) Colour partners (0x7ffbb5da8c40,0x7ffbb4a14bf0) k_T start : 0 k_T test : 1.051 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5da8c40 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (18,9.331,-3.063,-15.09) 2.23e-07 0 (629,628)[629,628] (Final state parton) Colour partners (0x7ffbb5c704f0,0x7ffbb5cd5a40) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb5c704f0 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(2)]: G : (2.185,0.8866,-1.579,-1.224) 7.598e-08 0 (620,629)[620,629] (Final state parton) Colour partners (0x7ffbb5cc3300,0x7ffbb5da8c40) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 Parton 0x7ffbb4a10d70 (0x7ffbb5badf90), stat=0, kin=1, kscheme=0, col=0 [(3)]: G : (16.23,-9.375,2.272,-13.06) 3.385e-07 0 (623,622)[623,622] (Final state parton) Colour partners (0x7ffbb4a14bf0,0x7ffbb4a10f00) k_T start : 0 k_T test : 0 k_T veto : 1.158e+77(0) x_B : 1 mom sum (0,1.776e-15,8.882e-16,3.553e-15), k_T,next = 0, nlo = 0, K = 0 ------------------------------------------------------------------------- -> Success (5 blobs) Blob List with 5 elements { Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [40]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( -> 2) [( 3.0816e+03,-1.7881e-14,-8.9407e-15, 3.0816e+03), p^2=-3.9968e-28, m= 0.0000e+00] (611,607) 0 [I] 1 G 24 ( -> 2) [( 3.0035e+03, 0.0000e+00, 0.0000e+00,-3.0035e+03), p^2= 2.7317e-09, m= 0.0000e+00] (605,612) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.1444e+00, 2.2288e-01, 1.1812e+02), p^2= 2.3883e-12, m= 0.0000e+00] (611, 0) [F] 1 sb 7 ( 2 -> ) [( 2.5209e+02,-2.1347e+00,-9.5948e-01, 2.5208e+02), p^2= 2.1801e-11, m= 0.0000e+00] ( 0,606) [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.3891e+00, 5.6005e-01, 1.2101e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,607) [F] 1 G 9 ( 2 -> ) [( 7.1256e+01, 1.0096e+01, 7.4994e+00, 7.0137e+01), p^2=-1.1676e-10, m= 0.0000e+00] (606,610) [F] 1 G 10 ( 2 -> ) [( 1.4940e+01, 1.2415e+00, 3.3411e+00, 1.4509e+01), p^2=-3.2969e-12, m= 0.0000e+00] (610,613) [F] 1 G 11 ( 2 -> ) [( 1.2882e+01, 4.1381e+00,-2.8164e+00, 1.1870e+01), p^2=-6.1606e-11, m= 0.0000e+00] (613,602) [F] 1 G 12 ( 2 -> ) [( 5.6058e+01,-4.3336e+01,-9.0459e-01, 3.5549e+01), p^2=-9.2361e-11, m= 0.0000e+00] (604,619) [F] 1 G 13 ( 2 -> ) [( 4.7855e+00,-3.3561e+00, 5.1054e-01, 3.3730e+00), p^2= 2.2540e-12, m= 0.0000e+00] (619,616) [F] 1 G 14 ( 2 -> ) [( 3.1914e+00,-2.7137e+00,-6.5225e-01, 1.5477e+00), p^2=-4.9849e-14, m= 0.0000e+00] (616,609) [F] 1 G 15 ( 2 -> ) [( 3.6229e+00,-3.4203e+00, 1.1566e+00,-2.9897e-01), p^2= 3.6882e-13, m= 0.0000e+00] (617,614) [F] 1 G 16 ( 2 -> ) [( 1.4167e+01,-1.3595e+01, 1.8278e+00, 3.5421e+00), p^2=-5.3535e-12, m= 0.0000e+00] (609,617) [F] 1 d 17 ( 2 -> ) [( 3.0787e-01,-3.1961e-02, 2.9718e-01, 7.3787e-02), p^2= 1.1643e-14, m= 0.0000e+00] (614, 0) [F] 1 db 18 ( 2 -> ) [( 1.8208e+00, 3.5140e-01,-1.3738e+00, 1.1422e+00), p^2= 9.3703e-14, m= 0.0000e+00] ( 0,500) [F] 1 d 19 ( 2 -> ) [( 6.2727e+01,-4.6415e+01,-3.6404e+01, 2.1331e+01), p^2=-4.0950e-10, m= 0.0000e+00] (615, 0) [F] 1 s 20 ( 2 -> ) [( 3.9021e+00,-2.7408e+00,-2.7742e+00, 1.3268e-01), p^2= 2.5047e-12, m= 0.0000e+00] (602, 0) [F] 1 sb 21 ( 2 -> ) [( 1.1459e+00,-5.0485e-01,-8.4793e-01, 5.8247e-01), p^2= 2.6197e-12, m= 0.0000e+00] ( 0,615) [F] 1 db 22 ( 2 -> ) [( 8.3643e+00,-6.9665e+00,-3.9243e+00, 2.4554e+00), p^2=-3.8458e-12, m= 0.0000e+00] ( 0,618) [F] 1 G 23 ( 2 -> ) [( 6.1470e+00,-4.7892e+00,-3.7084e+00, 1.0474e+00), p^2=-6.2013e-12, m= 0.0000e+00] (618,604) [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.4474e+00, 2.1311e+00,-1.9521e+02), p^2= 1.3460e-11, m= 0.0000e+00] (603,612) [F] 1 c 26 ( 2 -> ) [( 1.1296e+02, 4.1680e+00,-3.0518e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (605, 0) [F] 1 u 27 ( 2 -> ) [( 2.8718e+01, 1.1199e+01,-2.8069e-01,-2.6442e+01), p^2= 2.8027e-11, m= 0.0000e+00] (608, 0) [F] 1 ub 28 ( 2 -> ) [( 5.9751e+01, 1.9863e+01, 3.9080e+00,-5.6217e+01), p^2= 1.0503e-10, m= 0.0000e+00] ( 0,603) [F] 1 G 29 ( 2 -> ) [( 9.7264e+00, 2.3120e+00,-7.9843e+00,-5.0506e+00), p^2= 1.9895e-13, m= 0.0000e+00] (500,608) [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Blob [32]( 3, QED Radiation , 2 -> 3 @ (0,0,0,0), YFS-type_QED_Corrections_to_ME Incoming particles : [H] 2 mu- 30 ( 2 -> 3) [( 2.3964e+03,-2.1989e+03,-8.0177e+02, 5.1458e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5256e+03, 2.2748e+03, 8.4599e+02,-6.9897e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( 3 -> ) [( 2.3849e+03,-2.1859e+03,-8.0216e+02, 5.1602e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( 3 -> ) [( 2.5220e+03, 2.2742e+03, 8.4061e+02,-6.9411e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( 3 -> ) [( 1.5140e+01,-1.2499e+01, 5.7772e+00,-6.2951e+00), p^2=-1.0658e-13, m= 0.0000e+00] ( 0, 0) Blob [0]( 4, Hard Collision , 2 -> 2 @ (0,0,0,0), none Incoming particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * MI_Scale (14.17) * Shower_Weight (1) * Weight (1) Blob [168]( 5, Shower , 4 -> 11 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) [I] 1 G 39 ( -> 5) [( 2.6802e+01, 0.0000e+00, 0.0000e+00, 2.6802e+01), p^2= 3.0471e-12, m= 0.0000e+00] (626,627) 0 [I] 1 G 45 ( -> 5) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] (623,621) 1 Outgoing particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 G 40 ( 5 -> ) [( 3.7221e+00,-1.3508e+00, 6.5045e-01, 3.4067e+00), p^2= 1.5488e-14, m= 0.0000e+00] (624,630) [F] 1 G 41 ( 5 -> ) [( 7.7927e+00, 3.9669e-01, 1.8358e+00, 7.5630e+00), p^2= 1.6653e-13, m= 0.0000e+00] (630,627) [F] 1 G 42 ( 5 -> ) [( 8.7962e+00, 2.1321e+00,-6.7352e-02, 8.5336e+00), p^2= 4.3109e-13, m= 0.0000e+00] (626,625) [F] 1 G 43 ( 5 -> ) [( 3.4830e+00,-3.2794e+00, 3.6307e-01, 1.1156e+00), p^2= 3.4611e-14, m= 0.0000e+00] (625,620) [F] 1 G 44 ( 5 -> ) [( 1.3005e+00,-8.4679e-01, 4.0689e-01,-8.9922e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 1 G 46 ( 5 -> ) [( 2.3385e+00, 2.1062e+00,-8.1898e-01,-6.0158e-01), p^2=-1.5543e-15, m= 0.0000e+00] (628,621) [F] 1 G 47 ( 5 -> ) [( 1.8002e+01, 9.3307e+00,-3.0628e+00,-1.5088e+01), p^2= 4.9738e-14, m= 0.0000e+00] (629,628) [F] 1 G 48 ( 5 -> ) [( 2.1855e+00, 8.8660e-01,-1.5790e+00,-1.2236e+00), p^2=-5.7732e-15, m= 0.0000e+00] (620,629) [F] 1 G 49 ( 5 -> ) [( 1.6234e+01,-9.3752e+00, 2.2718e+00,-1.3057e+01), p^2=-1.1458e-13, m= 0.0000e+00] (623,622) } trying phase: Signal_Processes -> Nothing (5 blobs) trying phase: Hard_Decays -> Nothing (5 blobs) trying phase: Jet_Evolution:CSS -> Nothing (5 blobs) trying phase: Lepton_FS_QED_Corrections:PhotonsSignal_Process_FS_QED_Correction::Treat(1) { } -> Nothing (5 blobs) trying phase: Multiple_Interactions:AmisicSimple_Chain::GenerateOrderingParameter(): old p_T = 12.31, new p_T = 4.11 -> Nothing (5 blobs) trying phase: Minimum_Bias:Off -> Nothing (5 blobs) trying phase: Beam_RemnantsParton_Finder::FindConstConnected(..): { [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (605,612) 1 -> (1) [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (605,612) 1 [F] 1 c 26 ( 2 -> ) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (605, 0) } Parton_Finder::FindConstConnected(..): { [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (605,612) 1 -> (1) [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (605,612) 1 [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,612) } Parton_Finder::FindConstConnected(..): { [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (623,621) 1 -> (1) [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (623,621) 1 [F] 1 G 49 ( 5 -> ) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (623,622) } Parton_Finder::FindConstConnected(..): { [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (623,621) 1 -> (1) [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (623,621) 1 [F] 1 G 46 ( 5 -> ) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,621) } Parton_Finder::FindConstConnected(..): { [B] 1 d 55 ( 7 -> ) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (632, 0) -> (1) [B] 1 d 55 ( 7 -> ) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (632, 0) } Parton_Finder::FindConstConnected(..): { [B] 1 uu_1 54 ( 7 -> ) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,632) -> (1) [B] 1 uu_1 54 ( 7 -> ) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,632) } Parton_Finder::FindConstConnected(..): { [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (611,607) 0 -> (1) [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (611,607) 0 [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (611, 0) } Parton_Finder::FindConstConnected(..): { [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (611,607) 0 -> (1) [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (611,607) 0 [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,607) } Parton_Finder::FindConstConnected(..): { [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (626,627) 0 -> (1) [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (626,627) 0 [F] 1 G 42 ( 5 -> ) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (626,625) } Parton_Finder::FindConstConnected(..): { [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (626,627) 0 -> (1) [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (626,627) 0 [F] 1 G 41 ( 5 -> ) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,627) } Parton_Finder::FindConstConnected(..): { [B] 1 u 53 ( 6 -> ) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (631, 0) -> (1) [B] 1 u 53 ( 6 -> ) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (631, 0) } Parton_Finder::FindConstConnected(..): { [B] 1 ud_1 52 ( 6 -> ) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,631) -> (1) [B] 1 ud_1 52 ( 6 -> ) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,631) } -> Success (9 blobs) Blob List with 9 elements { Blob [0]( 9, Bunch , from Beam 0, 1 -> 1 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 50 ( -> 9) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Outgoing particles : [a] 2 P+ 50 ( 9 -> 6) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Blob [0]( 8, Bunch , from Beam 1, 1 -> 1 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 51 ( -> 8) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Outgoing particles : [a] 2 P+ 51 ( 8 -> 7) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Blob [48]( 7, Beam , from Beam 1, 1 -> 4 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 51 ( 8 -> 7) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Outgoing particles : [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (634,633) 1 [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (633,635) 1 [B] 1 uu_1 54 ( 7 -> ) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [B] 1 d 55 ( 7 -> ) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) Blob [48]( 6, Beam , from Beam 0, 1 -> 4 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 50 ( 9 -> 6) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Outgoing particles : [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (638,636) 0 [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (636,637) 0 [B] 1 ud_1 52 ( 6 -> ) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [B] 1 u 53 ( 6 -> ) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [32]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (638,636) 0 [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (634,633) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 s 6 ( 2 -> ) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [F] 1 sb 7 ( 2 -> ) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 1 cb 8 ( 2 -> ) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [F] 1 G 9 ( 2 -> ) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 1 G 10 ( 2 -> ) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 1 G 11 ( 2 -> ) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 1 G 12 ( 2 -> ) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 1 G 13 ( 2 -> ) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 1 G 14 ( 2 -> ) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 1 G 15 ( 2 -> ) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 1 G 16 ( 2 -> ) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 1 d 17 ( 2 -> ) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 1 db 18 ( 2 -> ) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) [F] 1 d 19 ( 2 -> ) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 1 s 20 ( 2 -> ) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 1 sb 21 ( 2 -> ) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 1 db 22 ( 2 -> ) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 1 G 23 ( 2 -> ) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 1 G 25 ( 2 -> ) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 1 c 26 ( 2 -> ) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [F] 1 u 27 ( 2 -> ) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 1 ub 28 ( 2 -> ) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 1 G 29 ( 2 -> ) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [H] 2 mu- 30 ( 2 -> 3) [( 2.3983e+03,-2.2017e+03,-8.0056e+02, 5.1339e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5237e+03, 2.2726e+03, 8.4707e+02,-6.9774e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Blob [32]( 3, QED Radiation , 2 -> 3 @ (0,0,0,0), YFS-type_QED_Corrections_to_ME Incoming particles : [H] 2 mu- 30 ( 2 -> 3) [( 2.3983e+03,-2.2017e+03,-8.0056e+02, 5.1339e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5237e+03, 2.2726e+03, 8.4707e+02,-6.9774e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( 3 -> ) [( 2.3868e+03,-2.1886e+03,-8.0096e+02, 5.1484e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( 3 -> ) [( 2.5201e+03, 2.2721e+03, 8.4169e+02,-6.9288e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( 3 -> ) [( 1.5156e+01,-1.2511e+01, 5.7833e+00,-6.3035e+00), p^2=-1.4211e-14, m= 0.0000e+00] ( 0, 0) Blob [0]( 4, Hard Collision , 2 -> 2 @ (0,0,0,0), none Incoming particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * MI_Scale (14.17) * Shower_Weight (1) * Weight (1) Blob [32]( 5, Shower , 4 -> 11 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (636,637) 0 [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (633,635) 1 Outgoing particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 1 G 40 ( 5 -> ) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 1 G 41 ( 5 -> ) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 1 G 42 ( 5 -> ) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 1 G 43 ( 5 -> ) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 1 G 44 ( 5 -> ) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 1 G 46 ( 5 -> ) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 1 G 47 ( 5 -> ) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 1 G 48 ( 5 -> ) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 1 G 49 ( 5 -> ) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) } trying phase: Signal_Processes -> Nothing (9 blobs) trying phase: Hard_Decays -> Nothing (9 blobs) trying phase: Jet_Evolution:CSS -> Nothing (9 blobs) trying phase: Lepton_FS_QED_Corrections:PhotonsSignal_Process_FS_QED_Correction::Treat(1) { } -> Nothing (9 blobs) trying phase: Multiple_Interactions:Amisic -> Nothing (9 blobs) trying phase: Minimum_Bias:Off -> Nothing (9 blobs) trying phase: Beam_Remnants -> Nothing (9 blobs) trying phase: Hadronization:AhadicDipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 9.93. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 3.943) : G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892; G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 3.943) : G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892; G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 4.992) : G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892; G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 3.943) : G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892; G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 4.992) : G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892; G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2. Dipole(must decay = 1, 7.501) : G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2; G((9.058,3.135,-0.395,8.489)), 0 vs. 0 --> kt^2_max = 19.72. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 3.943) : G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892; G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 4.992) : G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892; G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2. Dipole(must decay = 1, 7.501) : G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2; G((9.058,3.135,-0.395,8.489)), 0 vs. 0 --> kt^2_max = 8.9. Dipole(must decay = 1, 11.06) : G((9.058,3.135,-0.395,8.489)), 0 vs. 0 --> kt^2_max = 8.9; cb((121.1,3.194,0.636,121)), 1.8 vs. 1.8 --> kt^2_max = 8.9. Dipole(must decay = 1, 32.61) : d((275.5,-0.2357,0.9105,-275.5)), 0.3 vs. 0.3 --> kt^2_max = 9.93; G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934. Dipole(must decay = 1, 4.661) : G((2.573,2.334,-0.869,-0.6488)), 0 vs. 0 --> kt^2_max = 2.934; G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 3.943) : G((19.05,10.88,-3.299,-15.29)), 0 vs. 0 --> kt^2_max = 1.892; G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892. Dipole(must decay = 1, 4.992) : G((2.319,1.084,-1.616,-1.261)), 0 vs. 0 --> kt^2_max = 1.892; G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2. Dipole(must decay = 1, 7.501) : G((3.175,-2.939,0.2681,1.171)), 0 vs. 7.46e-08 --> kt^2_max = 18.2; G((9.058,3.135,-0.395,8.489)), 0 vs. 0 --> kt^2_max = 8.9. Dipole(must decay = 1, 11.06) : G((9.058,3.135,-0.395,8.489)), 0 vs. 0 --> kt^2_max = 8.9; cb((121.1,3.194,0.636,121)), 1.8 vs. 1.8 --> kt^2_max = 8.9. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 3.604) : G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371; G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 4.383. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 3.604) : G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371; G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 1.007) : G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032; G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 3.604) : G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371; G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 1.007) : G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032; G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 30.41) : G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032; G((195.2,-1.528,2.191,-195.2)), 0 vs. 6.086e-06 --> kt^2_max = 72.63. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 3.604) : G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371; G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 1.007) : G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032; G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 30.41) : G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032; G((195.2,-1.528,2.191,-195.2)), 0 vs. 6.086e-06 --> kt^2_max = 72.63. Dipole(must decay = 1, 37.72) : G((195.2,-1.528,2.191,-195.2)), 0 vs. 6.086e-06 --> kt^2_max = 72.63; ub((59.73,19.83,3.927,-56.21)), 0.3 vs. 0.3 --> kt^2_max = 435.2. Dipole(must decay = 1, 1.36) : u((1.898,0.85,0.3844,1.625)), 0.3 vs. 0.3 --> kt^2_max = 0.3317; G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317. Dipole(must decay = 1, 2.272) : G((7.834,1.276,1.547,7.573)), 0 vs. 0 --> kt^2_max = 0.3317; G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371. Dipole(must decay = 1, 3.604) : G((3.598,-0.9409,0.5169,3.434)), 0 vs. 2.81e-07 --> kt^2_max = 2.371; G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 1.007) : G((1.214,-0.7396,0.3889,-0.8807)), 0 vs. 2.264e-07 --> kt^2_max = 0.08032; G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032. Dipole(must decay = 1, 30.41) : G((15.34,-8.058,2.07,-12.88)), 0 vs. 2.827e-07 --> kt^2_max = 0.08032; G((195.2,-1.528,2.191,-195.2)), 0 vs. 6.086e-06 --> kt^2_max = 72.63. Dipole(must decay = 1, 37.72) : G((195.2,-1.528,2.191,-195.2)), 0 vs. 6.086e-06 --> kt^2_max = 72.63; ub((59.73,19.83,3.927,-56.21)), 0.3 vs. 0.3 --> kt^2_max = 435.2. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 0, 4.342) : s((126.6,-1.306,0.2785,126.6)), 0.45 vs. 0.45 --> kt^2_max = 2.345; ud_1((881.2,1.063,-1.297,881.2)), 0.9 vs. 0.9 --> kt^2_max = 2.345. Dipole(must decay = 0, 4.342) : s((126.6,-1.306,0.2785,126.6)), 0.45 vs. 0.45 --> kt^2_max = 2.345; ud_1((881.2,1.063,-1.297,881.2)), 0.9 vs. 0.9 --> kt^2_max = 2.345. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.922. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.595) : G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697; G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.595) : G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697; G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754. Dipole(must decay = 1, 2.596) : G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754; G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.595) : G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697; G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754. Dipole(must decay = 1, 2.596) : G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754; G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754. Dipole(must decay = 1, 13.86) : G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754; G((6.137,-4.786,-3.698,1.043)), 0 vs. 0 --> kt^2_max = 21.06. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.595) : G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697; G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754. Dipole(must decay = 1, 2.596) : G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754; G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754. Dipole(must decay = 1, 13.86) : G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754; G((6.137,-4.786,-3.698,1.043)), 0 vs. 0 --> kt^2_max = 1.382. Dipole(must decay = 1, 1.429) : G((6.137,-4.786,-3.698,1.043)), 0 vs. 0 --> kt^2_max = 1.382; db((8.387,-6.99,-3.914,2.464)), 0.3 vs. 0.3 --> kt^2_max = 1.382. Dipole(must decay = 1, 1.344) : d((0.4739,-0.1671,0.2875,0.1549)), 0.3 vs. 0.3 --> kt^2_max = 0.0955; G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955. Dipole(must decay = 1, 2.741) : G((3.619,-3.417,1.156,-0.3006)), 0 vs. 6.095e-07 --> kt^2_max = 0.0955; G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808. Dipole(must decay = 1, 2.833) : G((14.15,-13.58,1.831,3.526)), 0 vs. 0 --> kt^2_max = 1.808; G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697. Dipole(must decay = 1, 1.595) : G((3.187,-2.712,-0.6492,1.543)), 0 vs. 0 --> kt^2_max = 1.697; G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754. Dipole(must decay = 1, 2.596) : G((4.779,-3.356,0.5123,3.364)), 0 vs. 1.499e-06 --> kt^2_max = 0.5754; G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754. Dipole(must decay = 1, 13.86) : G((55.99,-43.32,-0.8708,35.45)), 0 vs. 0 --> kt^2_max = 0.5754; G((6.137,-4.786,-3.698,1.043)), 0 vs. 0 --> kt^2_max = 1.382. Dipole(must decay = 1, 1.429) : G((6.137,-4.786,-3.698,1.043)), 0 vs. 0 --> kt^2_max = 1.382; db((8.387,-6.99,-3.914,2.464)), 0.3 vs. 0.3 --> kt^2_max = 1.382. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 0, 3.211) : d((61.52,-45.57,-35.66,20.89)), 0.3 vs. 0.3 --> kt^2_max = 0.1796; sb((2.38,-1.423,-1.561,0.9995)), 0.45 vs. 0.45 --> kt^2_max = 0.1796. Dipole(must decay = 0, 3.211) : d((61.52,-45.57,-35.66,20.89)), 0.3 vs. 0.3 --> kt^2_max = 0.1796; sb((2.38,-1.423,-1.561,0.9995)), 0.45 vs. 0.45 --> kt^2_max = 0.1796. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 1, 10.23) : s((3.929,-2.744,-2.772,0.157)), 0.45 vs. 0.45 --> kt^2_max = 31.47; G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47. Dipole(must decay = 1, 10.23) : s((3.929,-2.744,-2.772,0.157)), 0.45 vs. 0.45 --> kt^2_max = 31.47; G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47. Dipole(must decay = 1, 7.001) : G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47; G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 42.25. Dipole(must decay = 1, 10.23) : s((3.929,-2.744,-2.772,0.157)), 0.45 vs. 0.45 --> kt^2_max = 31.47; G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47. Dipole(must decay = 1, 7.001) : G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47; G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 4.331) : G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933; G((71.24,9.98,7.543,70.13)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 10.23) : s((3.929,-2.744,-2.772,0.157)), 0.45 vs. 0.45 --> kt^2_max = 31.47; G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47. Dipole(must decay = 1, 7.001) : G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47; G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 4.331) : G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933; G((71.24,9.98,7.543,70.13)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 24.96) : G((71.24,9.98,7.543,70.13)), 0 vs. 0 --> kt^2_max = 3.933; sb((252.1,-2.541,-0.8008,252.1)), 0.45 vs. 0.45 --> kt^2_max = 176. Dipole(must decay = 1, 10.23) : s((3.929,-2.744,-2.772,0.157)), 0.45 vs. 0.45 --> kt^2_max = 31.47; G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47. Dipole(must decay = 1, 7.001) : G((12.87,4.117,-2.808,11.87)), 0 vs. 0 --> kt^2_max = 31.47; G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 4.331) : G((14.94,1.217,3.35,14.51)), 0 vs. 0 --> kt^2_max = 3.933; G((71.24,9.98,7.543,70.13)), 0 vs. 0 --> kt^2_max = 3.933. Dipole(must decay = 1, 24.96) : G((71.24,9.98,7.543,70.13)), 0 vs. 0 --> kt^2_max = 3.933; sb((252.1,-2.541,-0.8008,252.1)), 0.45 vs. 0.45 --> kt^2_max = 176. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 0, 13.31) : c((117.6,4.105,-3.023,-117.5)), 1.8 vs. 1.8 --> kt^2_max = 26.74; uu_1((679,-1.491,-1.45,-679)), 0.9 vs. 0.9 --> kt^2_max = 26.74. Dipole(must decay = 0, 13.31) : c((117.6,4.105,-3.023,-117.5)), 1.8 vs. 1.8 --> kt^2_max = 26.74; uu_1((679,-1.491,-1.45,-679)), 0.9 vs. 0.9 --> kt^2_max = 26.74. Gluon_Decayer::DecayDipoles : all dipoles done! Dipole(must decay = 1, 15.33) : u((28.69,11.18,-0.2735,-26.42)), 0.3 vs. 0.3 --> kt^2_max = 79.54; G((9.713,2.303,-7.975,-5.044)), 0 vs. 4.215e-07 --> kt^2_max = 79.54. Dipole(must decay = 1, 15.33) : u((28.69,11.18,-0.2735,-26.42)), 0.3 vs. 0.3 --> kt^2_max = 79.54; G((9.713,2.303,-7.975,-5.044)), 0 vs. 4.215e-07 --> kt^2_max = 4.298. Dipole(must decay = 1, 4.856) : G((9.713,2.303,-7.975,-5.044)), 0 vs. 4.215e-07 --> kt^2_max = 4.298; db((1.839,0.3555,-1.377,1.127)), 0.3 vs. 0.3 --> kt^2_max = 4.298. Dipole(must decay = 1, 15.33) : u((28.69,11.18,-0.2735,-26.42)), 0.3 vs. 0.3 --> kt^2_max = 79.54; G((9.713,2.303,-7.975,-5.044)), 0 vs. 4.215e-07 --> kt^2_max = 4.298. Dipole(must decay = 1, 4.856) : G((9.713,2.303,-7.975,-5.044)), 0 vs. 4.215e-07 --> kt^2_max = 4.298; db((1.839,0.3555,-1.377,1.127)), 0.3 vs. 0.3 --> kt^2_max = 4.298. Gluon_Decayer::DecayDipoles : all dipoles done! Blob [32]( 10, Cluster Formation , 36 -> 102 @ (0,0,0,0), AHADIC-1.0 Incoming particles : [B] 4 d 55 ( 7 -> 10) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) [F] 4 G 46 ( 5 -> 10) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 4 G 47 ( 5 -> 10) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 4 G 48 ( 5 -> 10) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 4 G 43 ( 5 -> 10) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 4 G 42 ( 5 -> 10) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 4 cb 8 ( 2 -> 10) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [B] 4 u 53 ( 6 -> 10) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) [F] 4 G 41 ( 5 -> 10) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 4 G 40 ( 5 -> 10) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 4 G 44 ( 5 -> 10) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 4 G 49 ( 5 -> 10) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) [F] 4 G 25 ( 2 -> 10) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 4 ub 28 ( 2 -> 10) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 4 s 6 ( 2 -> 10) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [B] 4 ud_1 52 ( 6 -> 10) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [F] 4 d 17 ( 2 -> 10) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 4 G 15 ( 2 -> 10) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 4 G 16 ( 2 -> 10) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 4 G 14 ( 2 -> 10) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 4 G 13 ( 2 -> 10) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 4 G 12 ( 2 -> 10) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 4 G 23 ( 2 -> 10) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 4 db 22 ( 2 -> 10) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 4 d 19 ( 2 -> 10) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 4 sb 21 ( 2 -> 10) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 4 s 20 ( 2 -> 10) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 4 G 11 ( 2 -> 10) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 4 G 10 ( 2 -> 10) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 4 G 9 ( 2 -> 10) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 4 sb 7 ( 2 -> 10) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 4 c 26 ( 2 -> 10) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [B] 4 uu_1 54 ( 7 -> 10) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [F] 4 u 27 ( 2 -> 10) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 4 G 29 ( 2 -> 10) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [F] 4 db 18 ( 2 -> 10) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) Outgoing particles : [P] 1 f(2)(1270) 56 ( 10 -> ) [( 3.2609e+00, 2.1061e+00,-7.0616e-01,-2.0184e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 eta 57 ( 10 -> ) [( 3.0581e+00, 1.3353e+00,-1.0263e+00,-2.4931e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 b(1)(1235)+ 58 ( 10 -> ) [( 1.1531e+01, 6.8736e+00,-1.8591e+00,-8.9857e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi 59 ( 10 -> ) [( 1.3149e+00, 4.3141e-01,-5.0047e-01,-1.1288e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K(1)(1400) 60 ( 10 -> ) [( 2.3479e+00, 1.5113e+00,-9.4079e-01,-6.1493e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 K(1)(1400)+b 61 ( 10 -> ) [( 1.5277e+00,-1.6374e-01,-5.6843e-01,-1.3515e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 a(1)(1260) 62 ( 10 -> ) [( 1.7947e+00,-1.0602e+00, 7.0031e-01, 3.0603e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 a(1)(1260)+ 63 ( 10 -> ) [( 1.6356e+00,-1.1209e-01,-2.8951e-01, 1.0324e+00), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 pi+ 64 ( 10 -> ) [( 1.1968e+00, 4.9738e-01, 3.2575e-01, 1.0293e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+b 65 ( 10 -> ) [( 3.7778e+00, 6.5246e-01, 8.1349e-01, 3.5484e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+b 66 ( 10 -> ) [( 4.2678e-01,-7.7344e-02, 3.4558e-01, 1.9300e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 67 ( 10 -> ) [( 1.2731e+00,-1.2450e+00, 2.2094e-01,-6.0217e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi 68 ( 10 -> ) [( 1.3482e+00,-1.2812e+00, 3.9308e-01, 5.7493e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 rho(770)+ 69 ( 10 -> ) [( 7.1696e+00,-6.7432e+00, 1.7434e+00, 1.5164e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770) 70 ( 10 -> ) [( 6.8913e+00,-6.6426e+00, 3.3899e-01, 1.6304e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 71 ( 10 -> ) [( 2.2799e+00,-2.2200e+00,-1.5548e-01, 4.7652e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K*(892) 72 ( 10 -> ) [( 5.6465e+00,-4.4824e+00,-5.1603e-01, 3.2744e+00), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+b 73 ( 10 -> ) [( 1.6062e+01,-1.2023e+01,-3.7176e-04, 1.0639e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 nb 74 ( 10 -> ) [( 3.6997e+00,-2.8109e+00,-1.8454e+00, 1.2242e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 f(2)(1270) 75 ( 10 -> ) [( 7.9265e+00,-6.1138e+00,-4.2123e+00, 2.4660e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 K(2)*(1430) 76 ( 10 -> ) [( 4.1303e+01,-3.0462e+01,-2.3725e+01, 1.4596e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 f(1)(1420) 77 ( 10 -> ) [( 2.2600e+01,-1.6536e+01,-1.3493e+01, 7.2952e+00), p^2= 2.0340e+00, m= 1.4262e+00] ( 0, 0) [P] 1 rho(770) 78 ( 10 -> ) [( 7.4765e+00, 2.3156e+00,-2.0566e+00, 6.7612e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 79 ( 10 -> ) [( 2.1348e+00, 2.0340e-01,-4.0644e-01, 1.9385e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 80 ( 10 -> ) [( 5.5103e+00, 8.8476e-01, 8.5582e-01, 5.3694e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)+ 81 ( 10 -> ) [( 3.6141e+01, 4.4949e+00, 4.8305e+00, 3.5512e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 82 ( 10 -> ) [( 1.7422e+00, 8.0186e-01,-2.0459e-01,-1.3257e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 h(1)(1170) 83 ( 10 -> ) [( 2.7516e+00, 4.2944e-01,-1.7666e-01,-2.4468e+00), p^2= 1.3689e+00, m= 1.1700e+00] ( 0, 0) [P] 1 pi 84 ( 10 -> ) [( 1.0712e+00, 2.6429e-01,-1.1357e-02, 1.0292e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 eta 85 ( 10 -> ) [( 2.2944e+00, 5.0495e-01,-1.1446e-01, 2.1672e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 rho(770)+ 86 ( 10 -> ) [( 4.2568e+00, 4.4377e-01, 9.3017e-01, 4.0577e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 87 ( 10 -> ) [( 5.1377e-01,-3.4993e-01, 1.5140e-01, 3.1682e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 88 ( 10 -> ) [( 2.3883e-01, 1.9344e-01, 7.4881e-03, 9.1038e-03), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Sigma(1385)+ 89 ( 10 -> ) [( 1.5458e+00,-5.1001e-01, 4.6365e-01, 4.9099e-02), p^2= 1.9121e+00, m= 1.3828e+00] ( 0, 0) [P] 1 Sigma(1385)b 90 ( 10 -> ) [( 1.6315e+00,-2.8272e-01,-7.6842e-02, 8.1313e-01), p^2= 1.9146e+00, m= 1.3837e+00] ( 0, 0) [P] 1 pi+b 91 ( 10 -> ) [( 2.1476e-01,-6.6022e-02,-1.1010e-01,-1.0080e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260)+b 92 ( 10 -> ) [( 1.4443e+00,-3.2548e-01,-4.0329e-01, 5.5172e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 rho(770)+ 93 ( 10 -> ) [( 9.3580e-01,-1.1778e-01, 1.9486e-01, 4.8060e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 nb 94 ( 10 -> ) [( 6.5312e+00,-5.0618e-01,-4.1689e-01,-6.4299e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 K 95 ( 10 -> ) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)+ 96 ( 10 -> ) [( 7.8457e+00,-3.5682e+00, 1.6587e+00,-6.7288e+00), p^2= 7.9506e-01, m= 8.9166e-01] ( 0, 0) [P] 1 Sigma(1670) 97 ( 10 -> ) [( 1.0579e+01,-3.7548e+00, 1.7770e+00,-9.5844e+00), p^2= 2.7889e+00, m= 1.6700e+00] ( 0, 0) [P] 1 K(2)*(1430)b 98 ( 10 -> ) [( 3.8203e+01,-4.7706e-02, 3.5836e-01,-3.8175e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 pi+b 99 ( 10 -> ) [( 2.4693e+01,-4.6259e-01,-1.3254e-01,-2.4688e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260) 100 ( 10 -> ) [( 1.6287e+02,-6.5731e-01, 2.3866e-02, 1.6287e+02), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 N(1535)+ 101 ( 10 -> ) [( 5.8903e+02, 3.1477e-01,-8.3406e-01, 5.8903e+02), p^2= 2.3562e+00, m= 1.5350e+00] ( 0, 0) [P] 1 Kb 102 ( 10 -> ) [( 1.4888e+02, 1.4921e-01,-2.6118e-01, 1.4888e+02), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 pi+b 103 ( 10 -> ) [( 1.0707e+02,-4.9403e-02, 5.2525e-02, 1.0707e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)+b 104 ( 10 -> ) [( 4.8276e+00,-3.9980e+00,-2.8459e-01, 2.3922e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 P+ 105 ( 10 -> ) [( 6.0891e+00,-4.6904e+00,-3.2507e-01, 3.7538e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [P] 1 K(1)(1270)b 106 ( 10 -> ) [( 3.5284e+00,-2.3767e+00,-2.2101e+00, 5.4654e-01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 a(2)(1320)+b 107 ( 10 -> ) [( 2.0696e+00,-1.1304e-01,-7.1619e-01, 1.4213e+00), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 pi+ 108 ( 10 -> ) [( 2.9534e+00, 6.5926e-01, 5.9068e-01, 2.8142e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 omega(782) 109 ( 10 -> ) [( 2.7345e+00, 6.3877e-01, 3.5553e-01, 2.5162e+00), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 Sigma(c)(2455)++ 110 ( 10 -> ) [( 1.7307e+02, 2.7407e-01,-9.4014e-01,-1.7305e+02), p^2= 6.0162e+00, m= 2.4528e+00] ( 0, 0) [P] 1 Delta(1232)+b 111 ( 10 -> ) [( 3.4533e+01, 7.2089e-01,-5.7579e-01,-3.4499e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+ 112 ( 10 -> ) [( 2.9158e+00, 1.2153e+00,-2.3881e+00,-8.5388e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 eta 113 ( 10 -> ) [( 1.3490e+00, 5.1726e-01,-1.0769e+00,-3.0465e-01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 Delta(1232)+b 114 ( 10 -> ) [( 2.0167e+00, 2.5377e-01,-1.5703e+00,-1.3844e-01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 115 ( 10 -> ) [( 1.4476e+00, 3.6009e-02,-1.1671e+00,-3.7287e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 b(1)(1235)+ 116 ( 10 -> ) [( 2.0371e+01, 7.6533e+00,-1.7506e-01,-1.8838e+01), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 f(2)(1270) 117 ( 10 -> ) [( 6.6984e+00, 2.5387e+00,-1.5604e-01,-6.0641e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 pi+b 118 ( 10 -> ) [( 2.3014e+00, 6.9693e-01,-1.6536e+00,-1.4342e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)++ 119 ( 10 -> ) [( 3.1460e+00, 9.2830e-01,-1.4377e+00,-2.3348e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+b 120 ( 10 -> ) [( 4.0361e+01, 5.2654e-01, 4.7894e-01,-4.0354e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(2)(1320)+ 121 ( 10 -> ) [( 4.2448e+01, 1.2596e-01,-3.1384e-01,-4.2426e+01), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 K 122 ( 10 -> ) [( 1.8680e+01, 1.0560e-01, 1.8015e-01,-1.8672e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)b 123 ( 10 -> ) [( 1.7136e+02,-8.3234e-01, 5.3206e-01,-1.7136e+02), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+ 124 ( 10 -> ) [( 8.1625e+00, 1.0530e+00,-8.0304e-02, 8.0788e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+b 125 ( 10 -> ) [( 4.2348e+00, 3.0991e-01,-1.8460e-02, 4.1945e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K 126 ( 10 -> ) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 D(s)*+b 127 ( 10 -> ) [( 9.8612e+01, 2.6670e+00, 2.2353e-01, 9.8553e+01), p^2= 4.4622e+00, m= 2.1124e+00] ( 0, 0) [P] 1 pi+ 128 ( 10 -> ) [( 1.2217e+00, 1.7487e-01, 7.2069e-02,-1.1989e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770) 129 ( 10 -> ) [( 8.6925e+00, 2.5969e-01, 2.3991e-01,-8.6511e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+ 130 ( 10 -> ) [( 9.0376e-01,-7.2726e-01,-4.2810e-01, 2.9177e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 b(1)(1235)+b 131 ( 10 -> ) [( 4.4117e+00,-3.7235e+00,-4.1683e-01, 1.9782e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 rho(770)+ 132 ( 10 -> ) [( 1.5156e+01,-1.1737e+01, 2.6275e-02, 9.5567e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 n 133 ( 10 -> ) [( 1.2610e+01,-9.8187e+00,-2.2861e-01, 7.8527e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 pi+b 134 ( 10 -> ) [( 1.2592e+01, 1.2669e+00, 1.6626e+00, 1.2416e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+ 135 ( 10 -> ) [( 9.7605e+00, 1.0022e+00, 5.6027e-01, 9.6620e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 K(1)(1270) 136 ( 10 -> ) [( 2.3685e+01, 1.7850e-02, 2.4015e-01, 2.3650e+01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 f(0)(1370) 137 ( 10 -> ) [( 8.6372e+01,-7.2640e-01,-2.2269e-01, 8.6357e+01), p^2= 1.9600e+00, m= 1.4000e+00] ( 0, 0) [P] 1 K+b 138 ( 10 -> ) [( 1.3585e+01, 5.4175e-01, 8.1392e-01, 1.3541e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+ 139 ( 10 -> ) [( 9.3295e+00,-2.6885e-02,-5.4753e-01, 9.3003e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 pi 140 ( 10 -> ) [( 4.2347e+01,-3.1816e-01,-1.5714e-01,-4.2345e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)++ 141 ( 10 -> ) [( 9.9068e+01,-8.1850e-02,-5.2568e-01,-9.9059e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi 142 ( 10 -> ) [( 1.8347e+01,-6.8591e-02, 4.6905e-01,-1.8341e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 143 ( 10 -> ) [( 8.2448e+01,-6.1217e-01, 9.4605e-01,-8.2440e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 K(2)*(1430) 144 ( 10 -> ) [( 2.3310e+01, 9.7960e-01, 7.7274e-01, 2.3233e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 K(2)*(1430)b 145 ( 10 -> ) [( 1.4355e+01, 1.6277e+00,-8.6000e-02, 1.4190e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 Delta(1232)+b 146 ( 10 -> ) [( 8.6870e+01,-1.1042e+00,-5.4064e-02, 8.6854e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+ 147 ( 10 -> ) [( 1.2652e+01,-2.5567e-01, 1.2966e-01, 1.2648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 eta 148 ( 10 -> ) [( 6.0499e+01,-1.0879e-02, 1.5935e-01,-6.0496e+01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 pi 149 ( 10 -> ) [( 8.8222e+00, 6.4772e-03, 1.5627e-02,-8.8211e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 b(1)(1235)+b 150 ( 10 -> ) [( 7.1284e+00, 1.0358e+00, 4.2839e-01,-6.9315e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi+ 151 ( 10 -> ) [( 1.2486e+00, 2.6945e-01, 8.7020e-02,-1.2081e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 152 ( 10 -> ) [( 9.4630e+00, 3.4460e+00, 6.7815e-01,-8.7861e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 omega(782) 153 ( 10 -> ) [( 4.4912e+01, 1.4522e+01, 2.8944e+00,-4.2393e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 rho(770)+ 154 ( 10 -> ) [( 9.3815e+01, 2.6203e-01,-5.8129e-01,-9.3809e+01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 155 ( 10 -> ) [( 2.1985e+02,-2.2745e-01,-7.8548e-01,-2.1985e+02), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 omega(782) 156 ( 10 -> ) [( 3.2239e+01, 8.3412e-01,-3.9728e-01,-3.2217e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 pi+b 157 ( 10 -> ) [( 3.2330e+01, 1.1546e+00,-6.8502e-01,-3.2301e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) -> Success (10 blobs) Blob List with 10 elements { Blob [0]( 9, Bunch , from Beam 0, 1 -> 1 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 50 ( -> 9) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Outgoing particles : [a] 2 P+ 50 ( 9 -> 6) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Blob [0]( 8, Bunch , from Beam 1, 1 -> 1 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 51 ( -> 8) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Outgoing particles : [a] 2 P+ 51 ( 8 -> 7) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Blob [16]( 7, Beam , from Beam 1, 1 -> 4 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 51 ( 8 -> 7) [( 4.0000e+03, 0.0000e+00, 0.0000e+00,-4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 1 Outgoing particles : [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (634,633) 1 [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (633,635) 1 [B] 4 uu_1 54 ( 7 -> 10) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [B] 4 d 55 ( 7 -> 10) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) Blob [16]( 6, Beam , from Beam 0, 1 -> 4 @ (0,0,0,0), none Incoming particles : [a] 2 P+ 50 ( 9 -> 6) [( 4.0000e+03, 0.0000e+00, 0.0000e+00, 4.0000e+03), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) 0 Outgoing particles : [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (638,636) 0 [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (636,637) 0 [B] 4 ud_1 52 ( 6 -> 10) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [B] 4 u 53 ( 6 -> 10) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) Blob [4]( 1, Signal Process , 2 -> 2 @ (0,0,0,0), 2_2__j__j__l__l Incoming particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) Data_Container: * Decay_Info ({NULL}) * Enhance (1) * Factorisation_Scale (2.419e+07) * Factorization_Scale (2.419e+07) * MEWeight (0.002869) * MEWeightInfo (0x7ffbb307a490) * MI_Scale (4918) * NLOOrder ((0,0)) * NLOType () * Orders ((0,2)) * PDFInfo ( pdf1 = (4,0.5865,4918:4.021e-05) , pdf2 = (-4,0.6443,4918:1.076e-05)) * Renormalization_Scale (2.419e+07) * Shower_Weight (1) * Sud_Weight (1) * Trials (1) * Variation_Weights (Variation weights: { } ) * Weight (3.104e-10) * Weight_Norm (5926) Blob [0]( 2, Shower , 4 -> 27 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 mu- 3 ( 1 -> 2) [( 2.4332e+03,-2.2366e+03,-8.2372e+02, 4.8951e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [H] 2 mu+ 4 ( 1 -> 2) [( 2.4901e+03, 2.2366e+03, 8.2372e+02,-7.2098e+02), p^2= 2.4447e-09, m= 0.0000e+00] ( 0, 0) [I] 1 G 5 ( 6 -> 2) [( 3.0816e+03,-4.9797e+00, 1.9346e+00, 3.0816e+03), p^2=-1.4361e-09, m= 0.0000e+00] (638,636) 0 [I] 1 G 24 ( 7 -> 2) [( 3.0035e+03,-1.2459e+00, 9.3028e-01,-3.0035e+03), p^2= 4.4998e-09, m= 0.0000e+00] (634,633) 1 Outgoing particles : [G] 2 c 1 ( 2 -> 1) [( 2.3459e+03, 0.0000e+00, 0.0000e+00, 2.3459e+03), p^2= 8.5344e-09, m= 0.0000e+00] ( 0, 0) [G] 2 cb 2 ( 2 -> 1) [( 2.5774e+03, 0.0000e+00, 0.0000e+00,-2.5774e+03), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 4 s 6 ( 2 -> 10) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [F] 4 sb 7 ( 2 -> 10) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 4 cb 8 ( 2 -> 10) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [F] 4 G 9 ( 2 -> 10) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 4 G 10 ( 2 -> 10) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 4 G 11 ( 2 -> 10) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 4 G 12 ( 2 -> 10) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 4 G 13 ( 2 -> 10) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 4 G 14 ( 2 -> 10) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 4 G 15 ( 2 -> 10) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 4 G 16 ( 2 -> 10) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 4 d 17 ( 2 -> 10) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 4 db 18 ( 2 -> 10) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) [F] 4 d 19 ( 2 -> 10) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 4 s 20 ( 2 -> 10) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 4 sb 21 ( 2 -> 10) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 4 db 22 ( 2 -> 10) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 4 G 23 ( 2 -> 10) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 4 G 25 ( 2 -> 10) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 4 c 26 ( 2 -> 10) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [F] 4 u 27 ( 2 -> 10) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 4 ub 28 ( 2 -> 10) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 4 G 29 ( 2 -> 10) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [H] 2 mu- 30 ( 2 -> 3) [( 2.3983e+03,-2.2017e+03,-8.0056e+02, 5.1339e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5237e+03, 2.2726e+03, 8.4707e+02,-6.9774e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Blob [0]( 3, QED Radiation , 2 -> 3 @ (0,0,0,0), YFS-type_QED_Corrections_to_ME Incoming particles : [H] 2 mu- 30 ( 2 -> 3) [( 2.3983e+03,-2.2017e+03,-8.0056e+02, 5.1339e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [H] 2 mu+ 31 ( 2 -> 3) [( 2.5237e+03, 2.2726e+03, 8.4707e+02,-6.9774e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) Outgoing particles : [F] 1 mu- 32 ( 3 -> ) [( 2.3868e+03,-2.1886e+03,-8.0096e+02, 5.1484e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [F] 1 mu+ 33 ( 3 -> ) [( 2.5201e+03, 2.2721e+03, 8.4169e+02,-6.9288e+02), p^2= 1.1025e-02, m= 1.0500e-01] ( 0, 0) [S] 1 P 34 ( 3 -> ) [( 1.5156e+01,-1.2511e+01, 5.7833e+00,-6.3035e+00), p^2=-1.4211e-14, m= 0.0000e+00] ( 0, 0) Blob [0]( 4, Hard Collision , 2 -> 2 @ (0,0,0,0), none Incoming particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Outgoing particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * MI_Scale (14.17) * Shower_Weight (1) * Weight (1) Blob [0]( 5, Shower , 4 -> 11 @ (0,0,0,0), CSSHOWER++1.0 Incoming particles : [H] 2 G 37 ( 4 -> 5) [( 2.2836e+01, 1.1176e+01,-5.1650e+00,-1.9233e+01), p^2= 3.5527e-15, m= 0.0000e+00] ( 0, 0) [H] 2 G 38 ( 4 -> 5) [( 1.8384e+01,-1.1176e+01, 5.1650e+00,-1.3652e+01), p^2=-1.3856e-13, m= 0.0000e+00] ( 0, 0) [I] 1 G 39 ( 6 -> 5) [( 2.6965e+01, 3.0376e+00,-1.0027e+00, 2.6775e+01), p^2= 3.0176e-12, m= 0.0000e+00] (636,637) 0 [I] 1 G 45 ( 7 -> 5) [( 3.7197e+01, 2.9889e+00,-3.8471e-01,-3.7074e+01), p^2=-1.6145e-13, m= 0.0000e+00] (633,635) 1 Outgoing particles : [G] 2 G 35 ( 5 -> 4) [( 4.1674e+00, 0.0000e+00, 0.0000e+00, 4.1674e+00), p^2=-7.4028e-15, m= 0.0000e+00] ( 0, 0) [G] 2 G 36 ( 5 -> 4) [( 3.7053e+01, 0.0000e+00, 0.0000e+00,-3.7053e+01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [F] 4 G 40 ( 5 -> 10) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 4 G 41 ( 5 -> 10) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 4 G 42 ( 5 -> 10) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 4 G 43 ( 5 -> 10) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 4 G 44 ( 5 -> 10) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 4 G 46 ( 5 -> 10) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 4 G 47 ( 5 -> 10) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 4 G 48 ( 5 -> 10) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 4 G 49 ( 5 -> 10) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) Blob [64]( 10, Fragmentation , 36 -> 102 @ (0,0,0,0), AHADIC-1.0 Incoming particles : [B] 4 d 55 ( 7 -> 10) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) [F] 4 G 46 ( 5 -> 10) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 4 G 47 ( 5 -> 10) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 4 G 48 ( 5 -> 10) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 4 G 43 ( 5 -> 10) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 4 G 42 ( 5 -> 10) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 4 cb 8 ( 2 -> 10) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [B] 4 u 53 ( 6 -> 10) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) [F] 4 G 41 ( 5 -> 10) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 4 G 40 ( 5 -> 10) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 4 G 44 ( 5 -> 10) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 4 G 49 ( 5 -> 10) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) [F] 4 G 25 ( 2 -> 10) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 4 ub 28 ( 2 -> 10) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 4 s 6 ( 2 -> 10) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [B] 4 ud_1 52 ( 6 -> 10) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [F] 4 d 17 ( 2 -> 10) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 4 G 15 ( 2 -> 10) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 4 G 16 ( 2 -> 10) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 4 G 14 ( 2 -> 10) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 4 G 13 ( 2 -> 10) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 4 G 12 ( 2 -> 10) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 4 G 23 ( 2 -> 10) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 4 db 22 ( 2 -> 10) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 4 d 19 ( 2 -> 10) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 4 sb 21 ( 2 -> 10) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 4 s 20 ( 2 -> 10) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 4 G 11 ( 2 -> 10) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 4 G 10 ( 2 -> 10) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 4 G 9 ( 2 -> 10) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 4 sb 7 ( 2 -> 10) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 4 c 26 ( 2 -> 10) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [B] 4 uu_1 54 ( 7 -> 10) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [F] 4 u 27 ( 2 -> 10) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 4 G 29 ( 2 -> 10) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [F] 4 db 18 ( 2 -> 10) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) Outgoing particles : [P] 1 f(2)(1270) 56 ( 10 -> ) [( 3.2609e+00, 2.1061e+00,-7.0616e-01,-2.0184e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 eta 57 ( 10 -> ) [( 3.0581e+00, 1.3353e+00,-1.0263e+00,-2.4931e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 b(1)(1235)+ 58 ( 10 -> ) [( 1.1531e+01, 6.8736e+00,-1.8591e+00,-8.9857e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi 59 ( 10 -> ) [( 1.3149e+00, 4.3141e-01,-5.0047e-01,-1.1288e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K(1)(1400) 60 ( 10 -> ) [( 2.3479e+00, 1.5113e+00,-9.4079e-01,-6.1493e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 K(1)(1400)+b 61 ( 10 -> ) [( 1.5277e+00,-1.6374e-01,-5.6843e-01,-1.3515e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 a(1)(1260) 62 ( 10 -> ) [( 1.7947e+00,-1.0602e+00, 7.0031e-01, 3.0603e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 a(1)(1260)+ 63 ( 10 -> ) [( 1.6356e+00,-1.1209e-01,-2.8951e-01, 1.0324e+00), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 pi+ 64 ( 10 -> ) [( 1.1968e+00, 4.9738e-01, 3.2575e-01, 1.0293e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+b 65 ( 10 -> ) [( 3.7778e+00, 6.5246e-01, 8.1349e-01, 3.5484e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+b 66 ( 10 -> ) [( 4.2678e-01,-7.7344e-02, 3.4558e-01, 1.9300e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 67 ( 10 -> ) [( 1.2731e+00,-1.2450e+00, 2.2094e-01,-6.0217e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi 68 ( 10 -> ) [( 1.3482e+00,-1.2812e+00, 3.9308e-01, 5.7493e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 rho(770)+ 69 ( 10 -> ) [( 7.1696e+00,-6.7432e+00, 1.7434e+00, 1.5164e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770) 70 ( 10 -> ) [( 6.8913e+00,-6.6426e+00, 3.3899e-01, 1.6304e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 71 ( 10 -> ) [( 2.2799e+00,-2.2200e+00,-1.5548e-01, 4.7652e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K*(892) 72 ( 10 -> ) [( 5.6465e+00,-4.4824e+00,-5.1603e-01, 3.2744e+00), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+b 73 ( 10 -> ) [( 1.6062e+01,-1.2023e+01,-3.7176e-04, 1.0639e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 nb 74 ( 10 -> ) [( 3.6997e+00,-2.8109e+00,-1.8454e+00, 1.2242e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 f(2)(1270) 75 ( 10 -> ) [( 7.9265e+00,-6.1138e+00,-4.2123e+00, 2.4660e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 K(2)*(1430) 76 ( 10 -> ) [( 4.1303e+01,-3.0462e+01,-2.3725e+01, 1.4596e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 f(1)(1420) 77 ( 10 -> ) [( 2.2600e+01,-1.6536e+01,-1.3493e+01, 7.2952e+00), p^2= 2.0340e+00, m= 1.4262e+00] ( 0, 0) [P] 1 rho(770) 78 ( 10 -> ) [( 7.4765e+00, 2.3156e+00,-2.0566e+00, 6.7612e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 79 ( 10 -> ) [( 2.1348e+00, 2.0340e-01,-4.0644e-01, 1.9385e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 80 ( 10 -> ) [( 5.5103e+00, 8.8476e-01, 8.5582e-01, 5.3694e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)+ 81 ( 10 -> ) [( 3.6141e+01, 4.4949e+00, 4.8305e+00, 3.5512e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 82 ( 10 -> ) [( 1.7422e+00, 8.0186e-01,-2.0459e-01,-1.3257e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 h(1)(1170) 83 ( 10 -> ) [( 2.7516e+00, 4.2944e-01,-1.7666e-01,-2.4468e+00), p^2= 1.3689e+00, m= 1.1700e+00] ( 0, 0) [P] 1 pi 84 ( 10 -> ) [( 1.0712e+00, 2.6429e-01,-1.1357e-02, 1.0292e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 eta 85 ( 10 -> ) [( 2.2944e+00, 5.0495e-01,-1.1446e-01, 2.1672e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 rho(770)+ 86 ( 10 -> ) [( 4.2568e+00, 4.4377e-01, 9.3017e-01, 4.0577e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 87 ( 10 -> ) [( 5.1377e-01,-3.4993e-01, 1.5140e-01, 3.1682e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 88 ( 10 -> ) [( 2.3883e-01, 1.9344e-01, 7.4881e-03, 9.1038e-03), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Sigma(1385)+ 89 ( 10 -> ) [( 1.5458e+00,-5.1001e-01, 4.6365e-01, 4.9099e-02), p^2= 1.9121e+00, m= 1.3828e+00] ( 0, 0) [P] 1 Sigma(1385)b 90 ( 10 -> ) [( 1.6315e+00,-2.8272e-01,-7.6842e-02, 8.1313e-01), p^2= 1.9146e+00, m= 1.3837e+00] ( 0, 0) [P] 1 pi+b 91 ( 10 -> ) [( 2.1476e-01,-6.6022e-02,-1.1010e-01,-1.0080e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260)+b 92 ( 10 -> ) [( 1.4443e+00,-3.2548e-01,-4.0329e-01, 5.5172e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 rho(770)+ 93 ( 10 -> ) [( 9.3580e-01,-1.1778e-01, 1.9486e-01, 4.8060e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 nb 94 ( 10 -> ) [( 6.5312e+00,-5.0618e-01,-4.1689e-01,-6.4299e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 K 95 ( 10 -> ) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)+ 96 ( 10 -> ) [( 7.8457e+00,-3.5682e+00, 1.6587e+00,-6.7288e+00), p^2= 7.9506e-01, m= 8.9166e-01] ( 0, 0) [P] 1 Sigma(1670) 97 ( 10 -> ) [( 1.0579e+01,-3.7548e+00, 1.7770e+00,-9.5844e+00), p^2= 2.7889e+00, m= 1.6700e+00] ( 0, 0) [P] 1 K(2)*(1430)b 98 ( 10 -> ) [( 3.8203e+01,-4.7706e-02, 3.5836e-01,-3.8175e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 pi+b 99 ( 10 -> ) [( 2.4693e+01,-4.6259e-01,-1.3254e-01,-2.4688e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260) 100 ( 10 -> ) [( 1.6287e+02,-6.5731e-01, 2.3866e-02, 1.6287e+02), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 N(1535)+ 101 ( 10 -> ) [( 5.8903e+02, 3.1477e-01,-8.3406e-01, 5.8903e+02), p^2= 2.3562e+00, m= 1.5350e+00] ( 0, 0) [P] 1 Kb 102 ( 10 -> ) [( 1.4888e+02, 1.4921e-01,-2.6118e-01, 1.4888e+02), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 pi+b 103 ( 10 -> ) [( 1.0707e+02,-4.9403e-02, 5.2525e-02, 1.0707e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)+b 104 ( 10 -> ) [( 4.8276e+00,-3.9980e+00,-2.8459e-01, 2.3922e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 P+ 105 ( 10 -> ) [( 6.0891e+00,-4.6904e+00,-3.2507e-01, 3.7538e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [P] 1 K(1)(1270)b 106 ( 10 -> ) [( 3.5284e+00,-2.3767e+00,-2.2101e+00, 5.4654e-01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 a(2)(1320)+b 107 ( 10 -> ) [( 2.0696e+00,-1.1304e-01,-7.1619e-01, 1.4213e+00), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 pi+ 108 ( 10 -> ) [( 2.9534e+00, 6.5926e-01, 5.9068e-01, 2.8142e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 omega(782) 109 ( 10 -> ) [( 2.7345e+00, 6.3877e-01, 3.5553e-01, 2.5162e+00), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 Sigma(c)(2455)++ 110 ( 10 -> ) [( 1.7307e+02, 2.7407e-01,-9.4014e-01,-1.7305e+02), p^2= 6.0162e+00, m= 2.4528e+00] ( 0, 0) [P] 1 Delta(1232)+b 111 ( 10 -> ) [( 3.4533e+01, 7.2089e-01,-5.7579e-01,-3.4499e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+ 112 ( 10 -> ) [( 2.9158e+00, 1.2153e+00,-2.3881e+00,-8.5388e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 eta 113 ( 10 -> ) [( 1.3490e+00, 5.1726e-01,-1.0769e+00,-3.0465e-01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 Delta(1232)+b 114 ( 10 -> ) [( 2.0167e+00, 2.5377e-01,-1.5703e+00,-1.3844e-01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 115 ( 10 -> ) [( 1.4476e+00, 3.6009e-02,-1.1671e+00,-3.7287e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 b(1)(1235)+ 116 ( 10 -> ) [( 2.0371e+01, 7.6533e+00,-1.7506e-01,-1.8838e+01), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 f(2)(1270) 117 ( 10 -> ) [( 6.6984e+00, 2.5387e+00,-1.5604e-01,-6.0641e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 pi+b 118 ( 10 -> ) [( 2.3014e+00, 6.9693e-01,-1.6536e+00,-1.4342e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)++ 119 ( 10 -> ) [( 3.1460e+00, 9.2830e-01,-1.4377e+00,-2.3348e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+b 120 ( 10 -> ) [( 4.0361e+01, 5.2654e-01, 4.7894e-01,-4.0354e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(2)(1320)+ 121 ( 10 -> ) [( 4.2448e+01, 1.2596e-01,-3.1384e-01,-4.2426e+01), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 K 122 ( 10 -> ) [( 1.8680e+01, 1.0560e-01, 1.8015e-01,-1.8672e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)b 123 ( 10 -> ) [( 1.7136e+02,-8.3234e-01, 5.3206e-01,-1.7136e+02), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+ 124 ( 10 -> ) [( 8.1625e+00, 1.0530e+00,-8.0304e-02, 8.0788e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+b 125 ( 10 -> ) [( 4.2348e+00, 3.0991e-01,-1.8460e-02, 4.1945e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K 126 ( 10 -> ) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 D(s)*+b 127 ( 10 -> ) [( 9.8612e+01, 2.6670e+00, 2.2353e-01, 9.8553e+01), p^2= 4.4622e+00, m= 2.1124e+00] ( 0, 0) [P] 1 pi+ 128 ( 10 -> ) [( 1.2217e+00, 1.7487e-01, 7.2069e-02,-1.1989e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770) 129 ( 10 -> ) [( 8.6925e+00, 2.5969e-01, 2.3991e-01,-8.6511e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+ 130 ( 10 -> ) [( 9.0376e-01,-7.2726e-01,-4.2810e-01, 2.9177e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 b(1)(1235)+b 131 ( 10 -> ) [( 4.4117e+00,-3.7235e+00,-4.1683e-01, 1.9782e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 rho(770)+ 132 ( 10 -> ) [( 1.5156e+01,-1.1737e+01, 2.6275e-02, 9.5567e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 n 133 ( 10 -> ) [( 1.2610e+01,-9.8187e+00,-2.2861e-01, 7.8527e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 pi+b 134 ( 10 -> ) [( 1.2592e+01, 1.2669e+00, 1.6626e+00, 1.2416e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+ 135 ( 10 -> ) [( 9.7605e+00, 1.0022e+00, 5.6027e-01, 9.6620e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 K(1)(1270) 136 ( 10 -> ) [( 2.3685e+01, 1.7850e-02, 2.4015e-01, 2.3650e+01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 f(0)(1370) 137 ( 10 -> ) [( 8.6372e+01,-7.2640e-01,-2.2269e-01, 8.6357e+01), p^2= 1.9600e+00, m= 1.4000e+00] ( 0, 0) [P] 1 K+b 138 ( 10 -> ) [( 1.3585e+01, 5.4175e-01, 8.1392e-01, 1.3541e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+ 139 ( 10 -> ) [( 9.3295e+00,-2.6885e-02,-5.4753e-01, 9.3003e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 pi 140 ( 10 -> ) [( 4.2347e+01,-3.1816e-01,-1.5714e-01,-4.2345e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)++ 141 ( 10 -> ) [( 9.9068e+01,-8.1850e-02,-5.2568e-01,-9.9059e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi 142 ( 10 -> ) [( 1.8347e+01,-6.8591e-02, 4.6905e-01,-1.8341e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 143 ( 10 -> ) [( 8.2448e+01,-6.1217e-01, 9.4605e-01,-8.2440e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 K(2)*(1430) 144 ( 10 -> ) [( 2.3310e+01, 9.7960e-01, 7.7274e-01, 2.3233e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 K(2)*(1430)b 145 ( 10 -> ) [( 1.4355e+01, 1.6277e+00,-8.6000e-02, 1.4190e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 Delta(1232)+b 146 ( 10 -> ) [( 8.6870e+01,-1.1042e+00,-5.4064e-02, 8.6854e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+ 147 ( 10 -> ) [( 1.2652e+01,-2.5567e-01, 1.2966e-01, 1.2648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 eta 148 ( 10 -> ) [( 6.0499e+01,-1.0879e-02, 1.5935e-01,-6.0496e+01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 pi 149 ( 10 -> ) [( 8.8222e+00, 6.4772e-03, 1.5627e-02,-8.8211e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 b(1)(1235)+b 150 ( 10 -> ) [( 7.1284e+00, 1.0358e+00, 4.2839e-01,-6.9315e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi+ 151 ( 10 -> ) [( 1.2486e+00, 2.6945e-01, 8.7020e-02,-1.2081e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 152 ( 10 -> ) [( 9.4630e+00, 3.4460e+00, 6.7815e-01,-8.7861e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 omega(782) 153 ( 10 -> ) [( 4.4912e+01, 1.4522e+01, 2.8944e+00,-4.2393e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 rho(770)+ 154 ( 10 -> ) [( 9.3815e+01, 2.6203e-01,-5.8129e-01,-9.3809e+01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 155 ( 10 -> ) [( 2.1985e+02,-2.2745e-01,-7.8548e-01,-2.1985e+02), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 omega(782) 156 ( 10 -> ) [( 3.2239e+01, 8.3412e-01,-3.9728e-01,-3.2217e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 pi+b 157 ( 10 -> ) [( 3.2330e+01, 1.1546e+00,-6.8502e-01,-3.2301e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) } trying phase: Signal_Processes -> Nothing (10 blobs) trying phase: Hard_Decays -> Nothing (10 blobs) trying phase: Jet_Evolution:CSS -> Nothing (10 blobs) trying phase: Lepton_FS_QED_Corrections:PhotonsSignal_Process_FS_QED_Correction::Treat(1) { } -> Nothing (10 blobs) trying phase: Multiple_Interactions:Amisic -> Nothing (10 blobs) trying phase: Minimum_Bias:Off -> Nothing (10 blobs) trying phase: Beam_Remnants -> Nothing (10 blobs) trying phase: Hadronization:AhadicWARNING in Lund_Interface::PrepareFragmentationBlob: No coloured particle found leaving shower blobs. -> Nothing (10 blobs) trying phase: Hadron_DecaysHadron_Decays::Treat(bloblist->size()=10) { Decay_Handler_Base::TreatInitialBlob() { 171:*blob=Blob [0]( 10, Fragmentation , 36 -> 102 @ (0,0,0,0), AHADIC-1.0 Incoming particles : [B] 4 d 55 ( 7 -> 10) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) [F] 4 G 46 ( 5 -> 10) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 4 G 47 ( 5 -> 10) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 4 G 48 ( 5 -> 10) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 4 G 43 ( 5 -> 10) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 4 G 42 ( 5 -> 10) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 4 cb 8 ( 2 -> 10) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [B] 4 u 53 ( 6 -> 10) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) [F] 4 G 41 ( 5 -> 10) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 4 G 40 ( 5 -> 10) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 4 G 44 ( 5 -> 10) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 4 G 49 ( 5 -> 10) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) [F] 4 G 25 ( 2 -> 10) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 4 ub 28 ( 2 -> 10) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 4 s 6 ( 2 -> 10) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [B] 4 ud_1 52 ( 6 -> 10) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [F] 4 d 17 ( 2 -> 10) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 4 G 15 ( 2 -> 10) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 4 G 16 ( 2 -> 10) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 4 G 14 ( 2 -> 10) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 4 G 13 ( 2 -> 10) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 4 G 12 ( 2 -> 10) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 4 G 23 ( 2 -> 10) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 4 db 22 ( 2 -> 10) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 4 d 19 ( 2 -> 10) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 4 sb 21 ( 2 -> 10) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 4 s 20 ( 2 -> 10) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 4 G 11 ( 2 -> 10) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 4 G 10 ( 2 -> 10) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 4 G 9 ( 2 -> 10) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 4 sb 7 ( 2 -> 10) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 4 c 26 ( 2 -> 10) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [B] 4 uu_1 54 ( 7 -> 10) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [F] 4 u 27 ( 2 -> 10) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 4 G 29 ( 2 -> 10) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [F] 4 db 18 ( 2 -> 10) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) Outgoing particles : [P] 1 f(2)(1270) 56 ( 10 -> ) [( 3.2609e+00, 2.1061e+00,-7.0616e-01,-2.0184e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 eta 57 ( 10 -> ) [( 3.0581e+00, 1.3353e+00,-1.0263e+00,-2.4931e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 b(1)(1235)+ 58 ( 10 -> ) [( 1.1531e+01, 6.8736e+00,-1.8591e+00,-8.9857e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi 59 ( 10 -> ) [( 1.3149e+00, 4.3141e-01,-5.0047e-01,-1.1288e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K(1)(1400) 60 ( 10 -> ) [( 2.3479e+00, 1.5113e+00,-9.4079e-01,-6.1493e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 K(1)(1400)+b 61 ( 10 -> ) [( 1.5277e+00,-1.6374e-01,-5.6843e-01,-1.3515e-01), p^2= 1.9656e+00, m= 1.4020e+00] ( 0, 0) [P] 1 a(1)(1260) 62 ( 10 -> ) [( 1.7947e+00,-1.0602e+00, 7.0031e-01, 3.0603e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 a(1)(1260)+ 63 ( 10 -> ) [( 1.6356e+00,-1.1209e-01,-2.8951e-01, 1.0324e+00), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 pi+ 64 ( 10 -> ) [( 1.1968e+00, 4.9738e-01, 3.2575e-01, 1.0293e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+b 65 ( 10 -> ) [( 3.7778e+00, 6.5246e-01, 8.1349e-01, 3.5484e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+b 66 ( 10 -> ) [( 4.2678e-01,-7.7344e-02, 3.4558e-01, 1.9300e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 67 ( 10 -> ) [( 1.2731e+00,-1.2450e+00, 2.2094e-01,-6.0217e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi 68 ( 10 -> ) [( 1.3482e+00,-1.2812e+00, 3.9308e-01, 5.7493e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 rho(770)+ 69 ( 10 -> ) [( 7.1696e+00,-6.7432e+00, 1.7434e+00, 1.5164e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770) 70 ( 10 -> ) [( 6.8913e+00,-6.6426e+00, 3.3899e-01, 1.6304e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 71 ( 10 -> ) [( 2.2799e+00,-2.2200e+00,-1.5548e-01, 4.7652e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K*(892) 72 ( 10 -> ) [( 5.6465e+00,-4.4824e+00,-5.1603e-01, 3.2744e+00), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+b 73 ( 10 -> ) [( 1.6062e+01,-1.2023e+01,-3.7176e-04, 1.0639e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 nb 74 ( 10 -> ) [( 3.6997e+00,-2.8109e+00,-1.8454e+00, 1.2242e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 f(2)(1270) 75 ( 10 -> ) [( 7.9265e+00,-6.1138e+00,-4.2123e+00, 2.4660e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 K(2)*(1430) 76 ( 10 -> ) [( 4.1303e+01,-3.0462e+01,-2.3725e+01, 1.4596e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 f(1)(1420) 77 ( 10 -> ) [( 2.2600e+01,-1.6536e+01,-1.3493e+01, 7.2952e+00), p^2= 2.0340e+00, m= 1.4262e+00] ( 0, 0) [P] 1 rho(770) 78 ( 10 -> ) [( 7.4765e+00, 2.3156e+00,-2.0566e+00, 6.7612e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 79 ( 10 -> ) [( 2.1348e+00, 2.0340e-01,-4.0644e-01, 1.9385e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 80 ( 10 -> ) [( 5.5103e+00, 8.8476e-01, 8.5582e-01, 5.3694e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)+ 81 ( 10 -> ) [( 3.6141e+01, 4.4949e+00, 4.8305e+00, 3.5512e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 82 ( 10 -> ) [( 1.7422e+00, 8.0186e-01,-2.0459e-01,-1.3257e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 h(1)(1170) 83 ( 10 -> ) [( 2.7516e+00, 4.2944e-01,-1.7666e-01,-2.4468e+00), p^2= 1.3689e+00, m= 1.1700e+00] ( 0, 0) [P] 1 pi 84 ( 10 -> ) [( 1.0712e+00, 2.6429e-01,-1.1357e-02, 1.0292e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 eta 85 ( 10 -> ) [( 2.2944e+00, 5.0495e-01,-1.1446e-01, 2.1672e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 rho(770)+ 86 ( 10 -> ) [( 4.2568e+00, 4.4377e-01, 9.3017e-01, 4.0577e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi 87 ( 10 -> ) [( 5.1377e-01,-3.4993e-01, 1.5140e-01, 3.1682e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 88 ( 10 -> ) [( 2.3883e-01, 1.9344e-01, 7.4881e-03, 9.1038e-03), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Sigma(1385)+ 89 ( 10 -> ) [( 1.5458e+00,-5.1001e-01, 4.6365e-01, 4.9099e-02), p^2= 1.9121e+00, m= 1.3828e+00] ( 0, 0) [P] 1 Sigma(1385)b 90 ( 10 -> ) [( 1.6315e+00,-2.8272e-01,-7.6842e-02, 8.1313e-01), p^2= 1.9146e+00, m= 1.3837e+00] ( 0, 0) [P] 1 pi+b 91 ( 10 -> ) [( 2.1476e-01,-6.6022e-02,-1.1010e-01,-1.0080e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260)+b 92 ( 10 -> ) [( 1.4443e+00,-3.2548e-01,-4.0329e-01, 5.5172e-01), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 rho(770)+ 93 ( 10 -> ) [( 9.3580e-01,-1.1778e-01, 1.9486e-01, 4.8060e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 nb 94 ( 10 -> ) [( 6.5312e+00,-5.0618e-01,-4.1689e-01,-6.4299e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 K 95 ( 10 -> ) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)+ 96 ( 10 -> ) [( 7.8457e+00,-3.5682e+00, 1.6587e+00,-6.7288e+00), p^2= 7.9506e-01, m= 8.9166e-01] ( 0, 0) [P] 1 Sigma(1670) 97 ( 10 -> ) [( 1.0579e+01,-3.7548e+00, 1.7770e+00,-9.5844e+00), p^2= 2.7889e+00, m= 1.6700e+00] ( 0, 0) [P] 1 K(2)*(1430)b 98 ( 10 -> ) [( 3.8203e+01,-4.7706e-02, 3.5836e-01,-3.8175e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 pi+b 99 ( 10 -> ) [( 2.4693e+01,-4.6259e-01,-1.3254e-01,-2.4688e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260) 100 ( 10 -> ) [( 1.6287e+02,-6.5731e-01, 2.3866e-02, 1.6287e+02), p^2= 1.5129e+00, m= 1.2300e+00] ( 0, 0) [P] 1 N(1535)+ 101 ( 10 -> ) [( 5.8903e+02, 3.1477e-01,-8.3406e-01, 5.8903e+02), p^2= 2.3562e+00, m= 1.5350e+00] ( 0, 0) [P] 1 Kb 102 ( 10 -> ) [( 1.4888e+02, 1.4921e-01,-2.6118e-01, 1.4888e+02), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 pi+b 103 ( 10 -> ) [( 1.0707e+02,-4.9403e-02, 5.2525e-02, 1.0707e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)+b 104 ( 10 -> ) [( 4.8276e+00,-3.9980e+00,-2.8459e-01, 2.3922e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 P+ 105 ( 10 -> ) [( 6.0891e+00,-4.6904e+00,-3.2507e-01, 3.7538e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [P] 1 K(1)(1270)b 106 ( 10 -> ) [( 3.5284e+00,-2.3767e+00,-2.2101e+00, 5.4654e-01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 a(2)(1320)+b 107 ( 10 -> ) [( 2.0696e+00,-1.1304e-01,-7.1619e-01, 1.4213e+00), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 pi+ 108 ( 10 -> ) [( 2.9534e+00, 6.5926e-01, 5.9068e-01, 2.8142e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 omega(782) 109 ( 10 -> ) [( 2.7345e+00, 6.3877e-01, 3.5553e-01, 2.5162e+00), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 Sigma(c)(2455)++ 110 ( 10 -> ) [( 1.7307e+02, 2.7407e-01,-9.4014e-01,-1.7305e+02), p^2= 6.0162e+00, m= 2.4528e+00] ( 0, 0) [P] 1 Delta(1232)+b 111 ( 10 -> ) [( 3.4533e+01, 7.2089e-01,-5.7579e-01,-3.4499e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+ 112 ( 10 -> ) [( 2.9158e+00, 1.2153e+00,-2.3881e+00,-8.5388e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 eta 113 ( 10 -> ) [( 1.3490e+00, 5.1726e-01,-1.0769e+00,-3.0465e-01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 Delta(1232)+b 114 ( 10 -> ) [( 2.0167e+00, 2.5377e-01,-1.5703e+00,-1.3844e-01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 rho(770)+b 115 ( 10 -> ) [( 1.4476e+00, 3.6009e-02,-1.1671e+00,-3.7287e-01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 b(1)(1235)+ 116 ( 10 -> ) [( 2.0371e+01, 7.6533e+00,-1.7506e-01,-1.8838e+01), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 f(2)(1270) 117 ( 10 -> ) [( 6.6984e+00, 2.5387e+00,-1.5604e-01,-6.0641e+00), p^2= 1.6256e+00, m= 1.2750e+00] ( 0, 0) [P] 1 pi+b 118 ( 10 -> ) [( 2.3014e+00, 6.9693e-01,-1.6536e+00,-1.4342e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)++ 119 ( 10 -> ) [( 3.1460e+00, 9.2830e-01,-1.4377e+00,-2.3348e+00), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+b 120 ( 10 -> ) [( 4.0361e+01, 5.2654e-01, 4.7894e-01,-4.0354e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(2)(1320)+ 121 ( 10 -> ) [( 4.2448e+01, 1.2596e-01,-3.1384e-01,-4.2426e+01), p^2= 1.7374e+00, m= 1.3181e+00] ( 0, 0) [P] 1 K 122 ( 10 -> ) [( 1.8680e+01, 1.0560e-01, 1.8015e-01,-1.8672e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)b 123 ( 10 -> ) [( 1.7136e+02,-8.3234e-01, 5.3206e-01,-1.7136e+02), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [P] 1 K+ 124 ( 10 -> ) [( 8.1625e+00, 1.0530e+00,-8.0304e-02, 8.0788e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+b 125 ( 10 -> ) [( 4.2348e+00, 3.0991e-01,-1.8460e-02, 4.1945e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K 126 ( 10 -> ) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 D(s)*+b 127 ( 10 -> ) [( 9.8612e+01, 2.6670e+00, 2.2353e-01, 9.8553e+01), p^2= 4.4622e+00, m= 2.1124e+00] ( 0, 0) [P] 1 pi+ 128 ( 10 -> ) [( 1.2217e+00, 1.7487e-01, 7.2069e-02,-1.1989e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770) 129 ( 10 -> ) [( 8.6925e+00, 2.5969e-01, 2.3991e-01,-8.6511e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 pi+ 130 ( 10 -> ) [( 9.0376e-01,-7.2726e-01,-4.2810e-01, 2.9177e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 b(1)(1235)+b 131 ( 10 -> ) [( 4.4117e+00,-3.7235e+00,-4.1683e-01, 1.9782e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 rho(770)+ 132 ( 10 -> ) [( 1.5156e+01,-1.1737e+01, 2.6275e-02, 9.5567e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 n 133 ( 10 -> ) [( 1.2610e+01,-9.8187e+00,-2.2861e-01, 7.8527e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 pi+b 134 ( 10 -> ) [( 1.2592e+01, 1.2669e+00, 1.6626e+00, 1.2416e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+ 135 ( 10 -> ) [( 9.7605e+00, 1.0022e+00, 5.6027e-01, 9.6620e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 K(1)(1270) 136 ( 10 -> ) [( 2.3685e+01, 1.7850e-02, 2.4015e-01, 2.3650e+01), p^2= 1.6180e+00, m= 1.2720e+00] ( 0, 0) [P] 1 f(0)(1370) 137 ( 10 -> ) [( 8.6372e+01,-7.2640e-01,-2.2269e-01, 8.6357e+01), p^2= 1.9600e+00, m= 1.4000e+00] ( 0, 0) [P] 1 K+b 138 ( 10 -> ) [( 1.3585e+01, 5.4175e-01, 8.1392e-01, 1.3541e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+ 139 ( 10 -> ) [( 9.3295e+00,-2.6885e-02,-5.4753e-01, 9.3003e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 pi 140 ( 10 -> ) [( 4.2347e+01,-3.1816e-01,-1.5714e-01,-4.2345e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)++ 141 ( 10 -> ) [( 9.9068e+01,-8.1850e-02,-5.2568e-01,-9.9059e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi 142 ( 10 -> ) [( 1.8347e+01,-6.8591e-02, 4.6905e-01,-1.8341e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 143 ( 10 -> ) [( 8.2448e+01,-6.1217e-01, 9.4605e-01,-8.2440e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 K(2)*(1430) 144 ( 10 -> ) [( 2.3310e+01, 9.7960e-01, 7.7274e-01, 2.3233e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 K(2)*(1430)b 145 ( 10 -> ) [( 1.4355e+01, 1.6277e+00,-8.6000e-02, 1.4190e+01), p^2= 2.0518e+00, m= 1.4324e+00] ( 0, 0) [P] 1 Delta(1232)+b 146 ( 10 -> ) [( 8.6870e+01,-1.1042e+00,-5.4064e-02, 8.6854e+01), p^2= 1.5178e+00, m= 1.2320e+00] ( 0, 0) [P] 1 pi+ 147 ( 10 -> ) [( 1.2652e+01,-2.5567e-01, 1.2966e-01, 1.2648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 eta 148 ( 10 -> ) [( 6.0499e+01,-1.0879e-02, 1.5935e-01,-6.0496e+01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 pi 149 ( 10 -> ) [( 8.8222e+00, 6.4772e-03, 1.5627e-02,-8.8211e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 b(1)(1235)+b 150 ( 10 -> ) [( 7.1284e+00, 1.0358e+00, 4.2839e-01,-6.9315e+00), p^2= 1.5117e+00, m= 1.2295e+00] ( 0, 0) [P] 1 pi+ 151 ( 10 -> ) [( 1.2486e+00, 2.6945e-01, 8.7020e-02,-1.2081e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 152 ( 10 -> ) [( 9.4630e+00, 3.4460e+00, 6.7815e-01,-8.7861e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 omega(782) 153 ( 10 -> ) [( 4.4912e+01, 1.4522e+01, 2.8944e+00,-4.2393e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 rho(770)+ 154 ( 10 -> ) [( 9.3815e+01, 2.6203e-01,-5.8129e-01,-9.3809e+01), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 rho(770)+b 155 ( 10 -> ) [( 2.1985e+02,-2.2745e-01,-7.8548e-01,-2.1985e+02), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [P] 1 omega(782) 156 ( 10 -> ) [( 3.2239e+01, 8.3412e-01,-3.9728e-01,-3.2217e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [P] 1 pi+b 157 ( 10 -> ) [( 3.2330e+01, 1.1546e+00,-6.8502e-01,-3.2301e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)  Hadron_Decay_Handler::CreateDecayBlob(b(1)(1235)+) { Decay_Table::Select(b(1)(1235)+) { 134:*selected=10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV } 149:inpart->Momentum()=(20.37,7.653,-0.1751,-18.84) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)++) { Decay_Table::Select(Delta(1232)++) { } 149:inpart->Momentum()=(3.146,0.9283,-1.438,-2.335) } Hadron_Decay_Handler::CreateDecayBlob(eta) { Decay_Table::Select(eta) { 134:*selected=221,211,-211,111 eta --> pi+ pi+b pi 2.683e-07 (3.304e-09 ) GeV } 149:inpart->Momentum()=(60.5,-0.01088,0.1594,-60.5) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(8.822,0.006477,0.01563,-8.821) } Hadron_Decay_Handler::CreateDecayBlob(K(2)*(1430)) { Decay_Table::Select(K(2)*(1430)) { 134:*selected=315,321,-211 K(2)*(1430) --> K+ pi+b 0.03627 (0.000872 ) GeV } 149:inpart->Momentum()=(23.31,0.9796,0.7727,23.23) } Hadron_Decay_Handler::CreateDecayBlob(K(1)(1400)+b) { Decay_Table::Select(K(1)(1400)+) { 134:*selected=20323,313,211 K(1)(1400)+ --> K*(892) pi+ 0.1091 (0.000696 ) GeV } 149:inpart->Momentum()=(1.528,-0.1637,-0.5684,-0.1351) } Hadron_Decay_Handler::CreateDecayBlob(b(1)(1235)+b) { Decay_Table::Select(b(1)(1235)+) { 134:*selected=10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV } 149:inpart->Momentum()=(7.128,1.036,0.4284,-6.931) } Hadron_Decay_Handler::CreateDecayBlob(b(1)(1235)+) { Decay_Table::Select(b(1)(1235)+) { 134:*selected=10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV } 149:inpart->Momentum()=(11.53,6.874,-1.859,-8.986) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)+b) { Decay_Table::Select(Delta(1232)+) { 134:*selected=2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV } 149:inpart->Momentum()=(2.017,0.2538,-1.57,-0.1384) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.071,0.2643,-0.01136,1.029) } Hadron_Decay_Handler::CreateDecayBlob(K) { Decay_Table::Select(K) { 134:*selected=311,310 K --> K(S) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(14.58,0.5702,0.3312,14.55) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)++) { Decay_Table::Select(Delta(1232)++) { } 149:inpart->Momentum()=(99.07,-0.08185,-0.5257,-99.06) } Hadron_Decay_Handler::CreateDecayBlob(K) { Decay_Table::Select(K) { 134:*selected=311,130 K --> K(L) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(7.764,-0.1294,-0.3301,-7.739) } Hadron_Decay_Handler::CreateDecayBlob(K(1)(1400)) { Decay_Table::Select(K(1)(1400)) { 134:*selected=20313,323,-211 K(1)(1400) --> K*(892)+ pi+b 0.1091 (0.000696 ) GeV } 149:inpart->Momentum()=(2.348,1.511,-0.9408,-0.6149) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.5138,-0.3499,0.1514,0.3168) } Hadron_Decay_Handler::CreateDecayBlob(f(2)(1270)) { Decay_Table::Select(f(2)(1270)) { 134:*selected=225,111,111 f(2)(1270) --> pi pi 0.05242 (0.001484 ) GeV } 149:inpart->Momentum()=(3.261,2.106,-0.7062,-2.018) } Hadron_Decay_Handler::CreateDecayBlob(D(s)*+b) { Decay_Table::Select(D(s)*+) { 134:*selected=433,431,22 D(s)*+ --> D(s)+ P 0.000942 (2.5e-05 ) GeV } 149:inpart->Momentum()=(98.61,2.667,0.2235,98.55) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)+b) { Decay_Table::Select(Delta(1232)+) { 134:*selected=2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV } 149:inpart->Momentum()=(4.828,-3.998,-0.2846,2.392) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,111,22 omega(782) --> pi P 0.0007138 (2.355e-05 ) GeV } 149:inpart->Momentum()=(2.734,0.6388,0.3555,2.516) } Hadron_Decay_Handler::CreateDecayBlob(Sigma(1670)) { Decay_Table::Select(Sigma(1670)) { 134:*selected=103214,3222,-211 Sigma(1670) --> Sigma+ pi+b 0.015 (0.015 ) GeV } 149:inpart->Momentum()=(10.58,-3.755,1.777,-9.584) } Hadron_Decay_Handler::CreateDecayBlob(a(2)(1320)+) { Decay_Table::Select(a(2)(1320)+) { 134:*selected=215,223,211,111 a(2)(1320)+ --> omega(782) pi+ pi 0.01135 (0.003424 ) GeV } 149:inpart->Momentum()=(42.45,0.126,-0.3138,-42.43) } Hadron_Decay_Handler::CreateDecayBlob(a(1)(1260)) { Decay_Table::Select(a(1)(1260)) { 134:*selected=20113,213,-211 a(1)(1260) --> rho(770)+ pi+b 0.2 (0.2 ) GeV } 149:inpart->Momentum()=(162.9,-0.6573,0.02387,162.9) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(93.81,0.262,-0.5813,-93.81) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+b) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(3.778,0.6525,0.8135,3.548) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)+b) { Decay_Table::Select(Delta(1232)+) { 134:*selected=2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV } 149:inpart->Momentum()=(34.53,0.7209,-0.5758,-34.5) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)+b) { Decay_Table::Select(Delta(1232)+) { 134:*selected=2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV } 149:inpart->Momentum()=(86.87,-1.104,-0.05406,86.85) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(18.35,-0.06859,0.469,-18.34) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)) { Decay_Table::Select(rho(770)) { 134:*selected=113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV } 149:inpart->Momentum()=(7.477,2.316,-2.057,6.761) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+b) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(1.742,0.8019,-0.2046,-1.326) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)) { Decay_Table::Select(rho(770)) { 134:*selected=113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV } 149:inpart->Momentum()=(8.692,0.2597,0.2399,-8.651) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(0.9358,-0.1178,0.1949,0.4806) } Hadron_Decay_Handler::CreateDecayBlob(f(2)(1270)) { Decay_Table::Select(f(2)(1270)) { 134:*selected=225,211,-211,111,111f(2)(1270) --> pi+ pi+b pi pi 0.01314 (0.003339 ) GeV } 149:inpart->Momentum()=(7.926,-6.114,-4.212,2.466) } Hadron_Decay_Handler::CreateDecayBlob(Delta(1232)+) { Decay_Table::Select(Delta(1232)+) { 134:*selected=2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV } 149:inpart->Momentum()=(36.14,4.495,4.83,35.51) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)+) { Decay_Table::Select(K*(892)+) { 134:*selected=323,321,111 K*(892)+ --> K+ pi 0.01692 (0.01692 ) GeV } 149:inpart->Momentum()=(7.846,-3.568,1.659,-6.729) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(32.24,0.8341,-0.3973,-32.22) } Hadron_Decay_Handler::CreateDecayBlob(Sigma(1385)b) { Decay_Table::Select(Sigma(1385)) { 134:*selected=3214,3122,111 Sigma(1385) --> Lambda pi 0.03168 (0.00072 ) GeV } 149:inpart->Momentum()=(1.631,-0.2827,-0.07684,0.8131) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(9.463,3.446,0.6782,-8.786) } Hadron_Decay_Handler::CreateDecayBlob(Sigma(c)(2455)++) { Decay_Table::Select(Sigma(c)(2455)++) { } 149:inpart->Momentum()=(173.1,0.2741,-0.9401,-173.1) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)) { Decay_Table::Select(rho(770)) { 134:*selected=113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV } 149:inpart->Momentum()=(6.891,-6.643,0.339,1.63) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(4.257,0.4438,0.9302,4.058) } Hadron_Decay_Handler::CreateDecayBlob(f(0)(1370)) { Decay_Table::Select(f(0)(1370)) { 134:*selected=10221,211,-211,111,111f(0)(1370) --> pi+ pi+b pi pi 0.2 (0.2 ) GeV } 149:inpart->Momentum()=(86.37,-0.7264,-0.2227,86.36) } Hadron_Decay_Handler::CreateDecayBlob(h(1)(1170)) { Decay_Table::Select(h(1)(1170)) { 134:*selected=10223,213,-211 h(1)(1170) --> rho(770)+ pi+b 0.12 (0.12 ) GeV } 149:inpart->Momentum()=(2.752,0.4294,-0.1767,-2.447) } Hadron_Decay_Handler::CreateDecayBlob(N(1535)+) { Decay_Table::Select(N(1535)+) { 134:*selected=102212,2212,221 N(1535)+ --> P+ eta 0.07478 (0.075 ) GeV } 149:inpart->Momentum()=(589,0.3148,-0.8341,589) } Hadron_Decay_Handler::CreateDecayBlob(b(1)(1235)+b) { Decay_Table::Select(b(1)(1235)+) { 134:*selected=10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV } 149:inpart->Momentum()=(4.412,-3.724,-0.4168,1.978) } Hadron_Decay_Handler::CreateDecayBlob(eta) { Decay_Table::Select(eta) { 134:*selected=221,111,111,111 eta --> pi pi pi 3.843e-07 (2.714e-09 ) GeV } 149:inpart->Momentum()=(3.058,1.335,-1.026,-2.493) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+b) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(219.9,-0.2275,-0.7855,-219.8) } Hadron_Decay_Handler::CreateDecayBlob(f(2)(1270)) { Decay_Table::Select(f(2)(1270)) { 134:*selected=225,211,-211 f(2)(1270) --> pi+ pi+b 0.1048 (0.002968 ) GeV } 149:inpart->Momentum()=(6.698,2.539,-0.156,-6.064) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+b) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(2.135,0.2034,-0.4064,1.939) } Hadron_Decay_Handler::CreateDecayBlob(K(2)*(1430)) { Decay_Table::Select(K(2)*(1430)) { 134:*selected=315,311,111 K(2)*(1430) --> K pi 0.01813 (0.000436 ) GeV } 149:inpart->Momentum()=(41.3,-30.46,-23.73,14.6) } Hadron_Decay_Handler::CreateDecayBlob(eta) { Decay_Table::Select(eta) { 134:*selected=221,111,111,111 eta --> pi pi pi 3.843e-07 (2.714e-09 ) GeV } 149:inpart->Momentum()=(1.349,0.5173,-1.077,-0.3046) } Hadron_Decay_Handler::CreateDecayBlob(a(1)(1260)+) { Decay_Table::Select(a(1)(1260)+) { 134:*selected=20213,213,111 a(1)(1260)+ --> rho(770)+ pi 0.2 (0.2 ) GeV } 149:inpart->Momentum()=(1.636,-0.1121,-0.2895,1.032) } Hadron_Decay_Handler::CreateDecayBlob(K) { Decay_Table::Select(K) { 134:*selected=311,130 K --> K(L) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(18.68,0.1056,0.1802,-18.67) } Hadron_Decay_Handler::CreateDecayBlob(K(1)(1270)b) { Decay_Table::Select(K(1)(1270)) { 134:*selected=10313,311,113 K(1)(1270) --> K rho(770) 0.01251 (0.0018 ) GeV } 149:inpart->Momentum()=(3.528,-2.377,-2.21,0.5465) } Hadron_Decay_Handler::CreateDecayBlob(eta) { Decay_Table::Select(eta) { 134:*selected=221,111,111,111 eta --> pi pi pi 3.843e-07 (2.714e-09 ) GeV } 149:inpart->Momentum()=(2.294,0.505,-0.1145,2.167) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.273,-1.245,0.2209,-0.06022) } Hadron_Decay_Handler::CreateDecayBlob(a(2)(1320)+b) { Decay_Table::Select(a(2)(1320)+) { 134:*selected=215,211,113 a(2)(1320)+ --> pi+ rho(770) 0.03751 (0.001445 ) GeV } 149:inpart->Momentum()=(2.07,-0.113,-0.7162,1.421) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.348,-1.281,0.3931,0.05749) } Hadron_Decay_Handler::CreateDecayBlob(K(2)*(1430)b) { Decay_Table::Select(K(2)*(1430)) { 134:*selected=315,311,111 K(2)*(1430) --> K pi 0.01813 (0.000436 ) GeV } 149:inpart->Momentum()=(38.2,-0.04771,0.3584,-38.17) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)) { Decay_Table::Select(K*(892)) { 134:*selected=313,311,111 K*(892) --> K pi 0.01679 (0.01679 ) GeV } 149:inpart->Momentum()=(5.647,-4.482,-0.516,3.274) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.315,0.4314,-0.5005,-1.129) } Hadron_Decay_Handler::CreateDecayBlob(f(1)(1420)) { Decay_Table::Select(f(1)(1420)) { 134:*selected=20333,313,-311 f(1)(1420) --> K*(892) Kb 0.01375 (0.01375 ) GeV } 149:inpart->Momentum()=(22.6,-16.54,-13.49,7.295) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(9.76,1.002,0.5603,9.662) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(7.17,-6.743,1.743,1.516) } Hadron_Decay_Handler::CreateDecayBlob(Kb) { Decay_Table::Select(K) { 134:*selected=311,310 K --> K(S) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(148.9,0.1492,-0.2612,148.9) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(42.35,-0.3182,-0.1571,-42.35) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+b) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(1.448,0.03601,-1.167,-0.3729) } Hadron_Decay_Handler::CreateDecayBlob(K(2)*(1430)b) { Decay_Table::Select(K(2)*(1430)) { 134:*selected=315,323,-211,111 K(2)*(1430) --> K*(892)+ pi+b pi 0.009748 (0.001526 ) GeV } 149:inpart->Momentum()=(14.35,1.628,-0.086,14.19) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(2.916,1.215,-2.388,-0.8539) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(2.28,-2.22,-0.1555,0.4765) } Hadron_Decay_Handler::CreateDecayBlob(K(1)(1270)) { Decay_Table::Select(K(1)(1270)) { 134:*selected=10313,321,-213 K(1)(1270) --> K+ rho(770)+b 0.02502 (0.0036 ) GeV } 149:inpart->Momentum()=(23.69,0.01785,0.2402,23.65) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(5.51,0.8848,0.8558,5.369) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(44.91,14.52,2.894,-42.39) } Hadron_Decay_Handler::CreateDecayBlob(Sigma(1385)+) { Decay_Table::Select(Sigma(1385)+) { 134:*selected=3224,3122,211 Sigma(1385)+ --> Lambda pi+ 0.0315 (0.000716 ) GeV } 149:inpart->Momentum()=(1.546,-0.51,0.4637,0.0491) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(15.16,-11.74,0.02627,9.557) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)b) { Decay_Table::Select(K*(892)) { 134:*selected=313,321,-211 K*(892) --> K+ pi+b 0.03359 (0.03359 ) GeV } 149:inpart->Momentum()=(171.4,-0.8323,0.5321,-171.4) } Hadron_Decay_Handler::CreateDecayBlob(a(1)(1260)+b) { Decay_Table::Select(a(1)(1260)+) { 134:*selected=20213,213,111 a(1)(1260)+ --> rho(770)+ pi 0.2 (0.2 ) GeV } 149:inpart->Momentum()=(1.444,-0.3255,-0.4033,0.5517) } Hadron_Decay_Handler::CreateDecayBlob(a(1)(1260)) { Decay_Table::Select(a(1)(1260)) { 134:*selected=20113,213,-211 a(1)(1260) --> rho(770)+ pi+b 0.2 (0.2 ) GeV } 149:inpart->Momentum()=(1.795,-1.06,0.7003,0.306) } Decay_Handler_Base::SetMasses(102) { Decay_Handler_Base::SetMasses:97("3071 > m[nb]=0.9396") Decay_Handler_Base::SetMasses:97("3070 > m[P+]=0.9383") Decay_Handler_Base::SetMasses:97("3069 > m[nb]=0.9396") Decay_Handler_Base::SetMasses:97("3068 > m[n]=0.9396") Decay_Handler_Base::SetMasses:97("3068 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3067 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("3066 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3065 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("3065 > m[K+b]=0.4937") Decay_Handler_Base::SetMasses:97("3065 > m[K+b]=0.4937") Decay_Handler_Base::SetMasses:97("3064 > m[K+]=0.4937") Decay_Handler_Base::SetMasses:97("3064 > m[K+]=0.4937") Decay_Handler_Base::SetMasses:97("3063 > m[K+b]=0.4937") Decay_Channel::GenerateMass(0.4977 < m[K] < 3063) { 187:mass=0.4977 } Decay_Channel::GenerateMass(0.4977 < m[K] < 3062) { 187:mass=0.4977 } Decay_Channel::GenerateMass(0.4977 < m[K] < 3062) { 187:mass=0.4977 } Decay_Channel::GenerateMass(0.4977 < m[K] < 3061) { 187:mass=0.4977 } Decay_Channel::GenerateMass(0 < m[pi] < 3061) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3061) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3061) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3060) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3059) { 187:mass=0.135 } Decay_Channel::GenerateMass(0.4049 < m[eta] < 3059) { 187:mass=0.5473 } Decay_Channel::GenerateMass(0.4141 < m[eta] < 3059) { 187:mass=0.5473 } Decay_Channel::GenerateMass(0.4049 < m[eta] < 3058) { 187:mass=0.5473 } Decay_Channel::GenerateMass(0.4049 < m[eta] < 3058) { 187:mass=0.5473 } Decay_Channel::GenerateMass(1.968 < m[D(s)*+] < 3057) { 187:mass=2.116 } Decay_Channel::GenerateMass(2.424 < m[Sigma(c)(2455)++] < 3055) { 187:mass=2.451 } Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 3053) { 187:mass=0.7807 } Decay_Channel::GenerateMass(0.135 < m[omega(782)] < 3052) { 187:mass=0.7838 } Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 3051) { 187:mass=0.7859 } Decay_Channel::GenerateMass(1.255 < m[Sigma(1385)+] < 3050) { 187:mass=1.401 } Decay_Channel::GenerateMass(1.251 < m[Sigma(1385)] < 3049) { 187:mass=1.43 } Decay_Channel::GenerateMass(0.6332 < m[K*(892)] < 3047) { 187:mass=0.8856 } Decay_Channel::GenerateMass(0.6326 < m[K*(892)] < 3047) { 187:mass=0.902 } Decay_Channel::GenerateMass(0.6287 < m[K*(892)+] < 3046) { 187:mass=0.8992 } Decay_Channel::GenerateMass(1.394 < m[f(1)(1420)] < 3045) { 187:mass=1.894 } Decay_Channel::GenerateMass(1.329 < m[Sigma(1670)] < 3043) { 187:mass=1.654 } Decay_Channel::GenerateMass(1.264 < m[K(1)(1270)] < 3041) { 187:mass=1.288 } Decay_Channel::GenerateMass(1.268 < m[K(1)(1270)] < 3040) { 187:mass=1.535 } Decay_Channel::GenerateMass(0.9096 < m[a(2)(1320)+] < 3038) { 187:mass=1.309 } Decay_Channel::GenerateMass(1.056 < m[a(2)(1320)+] < 3037) { 187:mass=1.531 } Decay_Channel::GenerateMass(0.6326 < m[K(2)*(1430)] < 3036) { 187:mass=1.404 } Decay_Channel::GenerateMass(1.166 < m[K(2)*(1430)] < 3034) { 187:mass=1.364 } Decay_Channel::GenerateMass(0.6332 < m[K(2)*(1430)] < 3033) { 187:mass=1.397 } Decay_Channel::GenerateMass(0.6326 < m[K(2)*(1430)] < 3031) { 187:mass=1.501 } Decay_Channel::GenerateMass(1.073 < m[Delta(1232)+] < 3030) { 187:mass=1.456 } Decay_Channel::GenerateMass(1.078 < m[Delta(1232)++] < 3028) { 187:mass=1.591 } Decay_Channel::GenerateMass(1.073 < m[Delta(1232)+] < 3027) { 187:mass=1.225 } Decay_Channel::GenerateMass(1.073 < m[Delta(1232)+] < 3026) { 187:mass=1.116 } Decay_Channel::GenerateMass(1.073 < m[Delta(1232)+] < 3024) { 187:mass=1.276 } Decay_Channel::GenerateMass(1.073 < m[Delta(1232)+] < 3023) { 187:mass=1.179 } Decay_Channel::GenerateMass(1.078 < m[Delta(1232)++] < 3022) { 187:mass=1.236 } Decay_Channel::GenerateMass(0.9215 < m[b(1)(1235)+] < 3021) { 187:mass=1.259 } Decay_Channel::GenerateMass(0.9215 < m[b(1)(1235)+] < 3020) { 187:mass=1.065 } Decay_Channel::GenerateMass(0.9215 < m[b(1)(1235)+] < 3018) { 187:mass=1.209 } Decay_Channel::GenerateMass(0.9215 < m[b(1)(1235)+] < 3017) { 187:mass=1.734 } Decay_Channel::GenerateMass(1.486 < m[N(1535)+] < 3015) { 187:mass=1.552 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3014) { 187:mass=0.7831 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3013) { 187:mass=0.7402 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3012) { 187:mass=1.031 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3011) { 187:mass=0.9113 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3010) { 187:mass=0.7458 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3010) { 187:mass=0.5862 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3009) { 187:mass=0.8543 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3008) { 187:mass=0.5895 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3008) { 187:mass=0.7735 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3007) { 187:mass=0.6708 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3006) { 187:mass=0.7881 } Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 3005) { 187:mass=0.7482 } Decay_Channel::GenerateMass(0.2791 < m[rho(770)] < 3005) { 187:mass=0.8128 } Decay_Channel::GenerateMass(0.2791 < m[rho(770)] < 3004) { 187:mass=0.4027 } Decay_Channel::GenerateMass(0.2791 < m[rho(770)] < 3004) { 187:mass=0.9129 } Decay_Channel::GenerateMass(1.036 < m[K(1)(1400)+] < 3003) { 187:mass=1.46 } Decay_Channel::GenerateMass(1.031 < m[K(1)(1400)] < 3001) { 187:mass=1.405 } Decay_Channel::GenerateMass(0.5491 < m[f(2)(1270)] < 3000) { 187:mass=1.231 } Decay_Channel::GenerateMass(0.2791 < m[f(2)(1270)] < 2998) { 187:mass=1.399 } Decay_Channel::GenerateMass(0.27 < m[f(2)(1270)] < 2997) { 187:mass=3.333 } Decay_Channel::GenerateMass(0.9096 < m[h(1)(1170)] < 2994) { 187:mass=8.231 } Decay_Channel::GenerateMass(0.905 < m[a(1)(1260)+] < 2986) { 187:mass=1.34 } Decay_Channel::GenerateMass(0.9096 < m[a(1)(1260)] < 2984) { 187:mass=1.302 } Decay_Channel::GenerateMass(0.905 < m[a(1)(1260)+] < 2983) { 187:mass=1.617 } Decay_Channel::GenerateMass(0.9096 < m[a(1)(1260)] < 2981) { 187:mass=1.119 } Decay_Channel::GenerateMass(0.5491 < m[f(0)(1370)] < 2980) { 187:mass=1.981 } } 209:*blob=Blob [0]( 10, Fragmentation , 36 -> 102 @ (0,0,0,0), AHADIC-1.0 Incoming particles : [B] 4 d 55 ( 7 -> 10) [( 2.7552e+02,-2.3572e-01, 9.1050e-01,-2.7552e+02), p^2= 9.9112e-12, m= 0.0000e+00] (635, 0) [F] 4 G 46 ( 5 -> 10) [( 2.5734e+00, 2.3337e+00,-8.6902e-01,-6.4877e-01), p^2=-8.8818e-16, m= 0.0000e+00] (628,635) [F] 4 G 47 ( 5 -> 10) [( 1.9054e+01, 1.0876e+01,-3.2991e+00,-1.5292e+01), p^2= 3.3751e-14, m= 0.0000e+00] (629,628) [F] 4 G 48 ( 5 -> 10) [( 2.3188e+00, 1.0844e+00,-1.6159e+00,-1.2609e+00), p^2=-4.4409e-15, m= 0.0000e+00] (620,629) [F] 4 G 43 ( 5 -> 10) [( 3.1748e+00,-2.9387e+00, 2.6814e-01, 1.1710e+00), p^2= 3.6346e-14, m= 0.0000e+00] (625,620) [F] 4 G 42 ( 5 -> 10) [( 9.0577e+00, 3.1345e+00,-3.9504e-01, 8.4889e+00), p^2= 4.0029e-13, m= 0.0000e+00] (636,625) [F] 4 cb 8 ( 2 -> 10) [( 1.2107e+02, 3.1935e+00, 6.3605e-01, 1.2102e+02), p^2= 2.0164e+00, m= 1.4200e+00] ( 0,636) [B] 4 u 53 ( 6 -> 10) [( 1.8843e+00, 8.4958e-01, 3.8393e-01, 1.6375e+00), p^2= 1.9429e-16, m= 0.0000e+00] (637, 0) [F] 4 G 41 ( 5 -> 10) [( 7.8344e+00, 1.2760e+00, 1.5474e+00, 7.5734e+00), p^2= 1.3500e-13, m= 0.0000e+00] (630,637) [F] 4 G 40 ( 5 -> 10) [( 3.5978e+00,-9.4101e-01, 5.1696e-01, 3.4338e+00), p^2= 2.2926e-14, m= 0.0000e+00] (624,630) [F] 4 G 44 ( 5 -> 10) [( 1.2141e+00,-7.3964e-01, 3.8890e-01,-8.8075e-01), p^2= 5.1015e-14, m= 0.0000e+00] (622,624) [F] 4 G 49 ( 5 -> 10) [( 1.5337e+01,-8.0590e+00, 2.0702e+00,-1.2884e+01), p^2= 8.8818e-16, m= 0.0000e+00] (633,622) [F] 4 G 25 ( 2 -> 10) [( 1.9523e+02,-1.5284e+00, 2.1916e+00,-1.9521e+02), p^2= 3.3561e-11, m= 0.0000e+00] (603,633) [F] 4 ub 28 ( 2 -> 10) [( 5.9733e+01, 1.9836e+01, 3.9271e+00,-5.6206e+01), p^2= 1.0511e-10, m= 0.0000e+00] ( 0,603) [F] 4 s 6 ( 2 -> 10) [( 1.1813e+02,-1.3353e+00, 2.9704e-01, 1.1812e+02), p^2= 2.0213e-12, m= 0.0000e+00] (638, 0) [B] 4 ud_1 52 ( 6 -> 10) [( 8.8973e+02, 1.0925e+00,-1.3159e+00, 8.8973e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,638) [F] 4 d 17 ( 2 -> 10) [( 3.0804e-01,-3.2318e-02, 2.9734e-01, 7.3721e-02), p^2= 1.1616e-14, m= 0.0000e+00] (614, 0) [F] 4 G 15 ( 2 -> 10) [( 3.6269e+00,-3.4238e+00, 1.1582e+00,-3.0121e-01), p^2= 3.6326e-13, m= 0.0000e+00] (617,614) [F] 4 G 16 ( 2 -> 10) [( 1.4182e+01,-1.3611e+01, 1.8350e+00, 3.5336e+00), p^2=-5.3704e-12, m= 0.0000e+00] (609,617) [F] 4 G 14 ( 2 -> 10) [( 3.1938e+00,-2.7178e+00,-6.5051e-01, 1.5462e+00), p^2=-5.2180e-14, m= 0.0000e+00] (616,609) [F] 4 G 13 ( 2 -> 10) [( 4.7891e+00,-3.3629e+00, 5.1332e-01, 3.3709e+00), p^2= 2.2599e-12, m= 0.0000e+00] (619,616) [F] 4 G 12 ( 2 -> 10) [( 5.6102e+01,-4.3414e+01,-8.7265e-01, 3.5523e+01), p^2=-9.2484e-11, m= 0.0000e+00] (604,619) [F] 4 G 23 ( 2 -> 10) [( 6.1501e+00,-4.7960e+00,-3.7053e+00, 1.0451e+00), p^2=-6.1871e-12, m= 0.0000e+00] (618,604) [F] 4 db 22 ( 2 -> 10) [( 8.3695e+00,-6.9765e+00,-3.9199e+00, 2.4518e+00), p^2=-3.8618e-12, m= 0.0000e+00] ( 0,618) [F] 4 d 19 ( 2 -> 10) [( 6.2757e+01,-4.6492e+01,-3.6371e+01, 2.1309e+01), p^2=-4.0905e-10, m= 0.0000e+00] (615, 0) [F] 4 sb 21 ( 2 -> 10) [( 1.1460e+00,-5.0636e-01,-8.4730e-01, 5.8230e-01), p^2= 2.6195e-12, m= 0.0000e+00] ( 0,615) [F] 4 s 20 ( 2 -> 10) [( 3.9036e+00,-2.7449e+00,-2.7724e+00, 1.3147e-01), p^2= 2.5064e-12, m= 0.0000e+00] (602, 0) [F] 4 G 11 ( 2 -> 10) [( 1.2877e+01, 4.1179e+00,-2.8085e+00, 1.1873e+01), p^2=-6.1616e-11, m= 0.0000e+00] (613,602) [F] 4 G 10 ( 2 -> 10) [( 1.4940e+01, 1.2176e+00, 3.3504e+00, 1.4509e+01), p^2=-3.2312e-12, m= 0.0000e+00] (610,613) [F] 4 G 9 ( 2 -> 10) [( 7.1249e+01, 9.9814e+00, 7.5439e+00, 7.0142e+01), p^2=-1.1679e-10, m= 0.0000e+00] (606,610) [F] 4 sb 7 ( 2 -> 10) [( 2.5209e+02,-2.5421e+00,-8.0122e-01, 2.5208e+02), p^2= 1.9266e-11, m= 0.0000e+00] ( 0,606) [F] 4 c 26 ( 2 -> 10) [( 1.1295e+02, 4.1211e+00,-3.0168e+00,-1.1283e+02), p^2= 2.0164e+00, m= 1.4200e+00] (634, 0) [B] 4 uu_1 54 ( 7 -> 10) [( 6.8363e+02,-1.5073e+00,-1.4561e+00,-6.8362e+02), p^2= 5.9495e-01, m= 0.0000e+00] ( 0,634) [F] 4 u 27 ( 2 -> 10) [( 2.8706e+01, 1.1186e+01,-2.7144e-01,-2.6436e+01), p^2= 2.8125e-11, m= 0.0000e+00] (608, 0) [F] 4 G 29 ( 2 -> 10) [( 9.7203e+00, 2.3051e+00,-7.9806e+00,-5.0480e+00), p^2= 2.2737e-13, m= 0.0000e+00] (500,608) [F] 4 db 18 ( 2 -> 10) [( 1.8199e+00, 3.4887e-01,-1.3728e+00, 1.1426e+00), p^2= 9.4147e-14, m= 0.0000e+00] ( 0,500) Outgoing particles : [P] 1 f(2)(1270) 56 ( 10 -> 26) [( 4.4387e+00, 2.0733e+00,-7.2226e-01,-1.9421e+00), p^2= 1.1110e+01, m= 3.3331e+00] ( 0, 0) [P] 1 eta 57 ( 10 -> 55) [( 3.0504e+00, 1.3319e+00,-1.0237e+00,-2.4867e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1486e+01, 6.8562e+00,-1.8541e+00,-8.9633e+00), p^2= 1.1351e+00, m= 1.0654e+00] ( 0, 0) [P] 1 pi 59 ( 10 -> 70) [( 1.3115e+00, 4.3029e-01,-4.9918e-01,-1.1259e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K(1)(1400) 60 ( 10 -> 24) [( 2.3460e+00, 1.5073e+00,-9.3842e-01,-6.1309e-01), p^2= 1.9753e+00, m= 1.4055e+00] ( 0, 0) [P] 1 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5808e+00,-1.6464e-01,-5.6782e-01,-1.3138e-01), p^2= 2.1322e+00, m= 1.4602e+00] ( 0, 0) [P] 1 a(1)(1260) 62 ( 10 -> 87) [( 1.7167e+00,-1.0558e+00, 6.9961e-01, 3.0085e-01), p^2= 1.2525e+00, m= 1.1192e+00] ( 0, 0) [P] 1 a(1)(1260)+ 63 ( 10 -> 61) [( 1.9533e+00,-1.1922e-01,-2.9363e-01, 1.0491e+00), p^2= 2.6146e+00, m= 1.6170e+00] ( 0, 0) [P] 1 pi+ 64 ( 10 -> ) [( 1.1938e+00, 4.9609e-01, 3.2491e-01, 1.0266e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+b 65 ( 10 -> 34) [( 3.7692e+00, 6.5075e-01, 8.1137e-01, 3.5393e+00), p^2= 5.9834e-01, m= 7.7352e-01] ( 0, 0) [P] 1 pi+b 66 ( 10 -> ) [( 4.2579e-01,-7.7147e-02, 3.4469e-01, 1.9251e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 67 ( 10 -> 65) [( 1.2698e+00,-1.2418e+00, 2.2036e-01,-6.0059e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi 68 ( 10 -> 67) [( 1.3447e+00,-1.2779e+00, 3.9206e-01, 5.7346e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 rho(770)+ 69 ( 10 -> 73) [( 7.1336e+00,-6.7254e+00, 1.7391e+00, 1.5114e+00), p^2= 3.4751e-01, m= 5.8950e-01] ( 0, 0) [P] 1 rho(770) 70 ( 10 -> 49) [( 6.8919e+00,-6.6259e+00, 3.3784e-01, 1.6273e+00), p^2= 8.3335e-01, m= 9.1288e-01] ( 0, 0) [P] 1 pi 71 ( 10 -> 79) [( 2.2740e+00,-2.2143e+00,-1.5508e-01, 4.7529e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 K*(892) 72 ( 10 -> 69) [( 5.6333e+00,-4.4708e+00,-5.1472e-01, 3.2660e+00), p^2= 8.1364e-01, m= 9.0202e-01] ( 0, 0) [P] 1 K+b 73 ( 10 -> ) [( 1.6021e+01,-1.1992e+01,-3.7142e-04, 1.0612e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 nb 74 ( 10 -> ) [( 3.6908e+00,-2.8036e+00,-1.8406e+00, 1.2211e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 f(2)(1270) 75 ( 10 -> 42) [( 7.8992e+00,-6.0979e+00,-4.2013e+00, 2.4592e+00), p^2= 1.5145e+00, m= 1.2306e+00] ( 0, 0) [P] 1 K(2)*(1430) 76 ( 10 -> 59) [( 4.1199e+01,-3.0384e+01,-2.3664e+01, 1.4558e+01), p^2= 2.2535e+00, m= 1.5012e+00] ( 0, 0) [P] 1 f(1)(1420) 77 ( 10 -> 71) [( 2.2578e+01,-1.6494e+01,-1.3459e+01, 7.2786e+00), p^2= 3.5868e+00, m= 1.8939e+00] ( 0, 0) [P] 1 rho(770) 78 ( 10 -> 38) [( 7.4622e+00, 2.3095e+00,-2.0514e+00, 6.7440e+00), p^2= 6.6057e-01, m= 8.1275e-01] ( 0, 0) [P] 1 rho(770)+b 79 ( 10 -> 58) [( 2.1209e+00, 2.0307e-01,-4.0526e-01, 1.9330e+00), p^2= 5.5627e-01, m= 7.4583e-01] ( 0, 0) [P] 1 pi 80 ( 10 -> 81) [( 5.4961e+00, 8.8247e-01, 8.5361e-01, 5.3555e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)+ 81 ( 10 -> 43) [( 3.6057e+01, 4.4831e+00, 4.8179e+00, 3.5421e+01), p^2= 2.1189e+00, m= 1.4556e+00] ( 0, 0) [P] 1 rho(770)+b 82 ( 10 -> 39) [( 1.7262e+00, 8.0005e-01,-2.0388e-01,-1.3229e+00), p^2= 5.4792e-01, m= 7.4022e-01] ( 0, 0) [P] 1 h(1)(1170) 83 ( 10 -> 52) [( 8.5024e+00, 2.9560e-01,-2.6320e-01,-2.0956e+00), p^2= 6.7743e+01, m= 8.2306e+00] ( 0, 0) [P] 1 pi 84 ( 10 -> 20) [( 1.0685e+00, 2.6361e-01,-1.1329e-02, 1.0266e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 eta 85 ( 10 -> 64) [( 2.2888e+00, 5.0364e-01,-1.1417e-01, 2.1616e+00), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 rho(770)+ 86 ( 10 -> 50) [( 4.2151e+00, 4.4333e-01, 9.2823e-01, 4.0454e+00), p^2= 3.4367e-01, m= 5.8624e-01] ( 0, 0) [P] 1 pi 87 ( 10 -> 25) [( 5.1254e-01,-3.4903e-01, 1.5100e-01, 3.1601e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 88 ( 10 -> ) [( 2.3842e-01, 1.9294e-01, 7.4657e-03, 9.0927e-03), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Sigma(1385)+ 89 ( 10 -> 83) [( 1.5619e+00,-5.0915e-01, 4.6215e-01, 5.0173e-02), p^2= 1.9642e+00, m= 1.4015e+00] ( 0, 0) [P] 1 Sigma(1385)b 90 ( 10 -> 46) [( 1.6709e+00,-2.8299e-01,-7.7303e-02, 8.1364e-01), p^2= 2.0438e+00, m= 1.4296e+00] ( 0, 0) [P] 1 pi+b 91 ( 10 -> ) [( 2.1444e-01,-6.5856e-02,-1.0982e-01,-1.0053e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260)+b 92 ( 10 -> 86) [( 1.5414e+00,-3.2697e-01,-4.0378e-01, 5.5634e-01), p^2= 1.7965e+00, m= 1.3403e+00] ( 0, 0) [P] 1 rho(770)+ 93 ( 10 -> 41) [( 1.0077e+00,-1.1918e-01, 1.9323e-01, 4.8381e-01), p^2= 7.2980e-01, m= 8.5428e-01] ( 0, 0) [P] 1 nb 94 ( 10 -> ) [( 6.5146e+00,-5.0488e-01,-4.1581e-01,-6.4132e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 K 95 ( 10 -> 23) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)+ 96 ( 10 -> 44) [( 7.8265e+00,-3.5590e+00, 1.6544e+00,-6.7113e+00), p^2= 8.0850e-01, m= 8.9917e-01] ( 0, 0) [P] 1 Sigma(1670) 97 ( 10 -> 30) [( 1.0549e+01,-3.7451e+00, 1.7724e+00,-9.5597e+00), p^2= 2.7345e+00, m= 1.6536e+00] ( 0, 0) [P] 1 K(2)*(1430)b 98 ( 10 -> 68) [( 3.8104e+01,-4.7562e-02, 3.5745e-01,-3.8076e+01), p^2= 1.9717e+00, m= 1.4042e+00] ( 0, 0) [P] 1 pi+b 99 ( 10 -> ) [( 2.4629e+01,-4.6139e-01,-1.3220e-01,-2.4624e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(1)(1260) 100 ( 10 -> 32) [( 1.6245e+02,-6.5563e-01, 2.3795e-02, 1.6245e+02), p^2= 1.6956e+00, m= 1.3022e+00] ( 0, 0) [P] 1 N(1535)+ 101 ( 10 -> 53) [( 5.8751e+02, 3.1395e-01,-8.3191e-01, 5.8751e+02), p^2= 2.4075e+00, m= 1.5516e+00] ( 0, 0) [P] 1 Kb 102 ( 10 -> 74) [( 1.4850e+02, 1.4883e-01,-2.6050e-01, 1.4850e+02), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 pi+b 103 ( 10 -> ) [( 1.0680e+02,-4.9276e-02, 5.2389e-02, 1.0680e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)+b 104 ( 10 -> 28) [( 4.8280e+00,-3.9880e+00,-2.8405e-01, 2.3868e+00), p^2= 1.6278e+00, m= 1.2759e+00] ( 0, 0) [P] 1 P+ 105 ( 10 -> ) [( 6.0738e+00,-4.6783e+00,-3.2424e-01, 3.7442e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [P] 1 K(1)(1270)b 106 ( 10 -> 63) [( 3.6274e+00,-2.3730e+00,-2.2060e+00, 5.5161e-01), p^2= 2.3560e+00, m= 1.5349e+00] ( 0, 0) [P] 1 a(2)(1320)+b 107 ( 10 -> 66) [( 2.0606e+00,-1.1266e-01,-7.1429e-01, 1.4174e+00), p^2= 1.7141e+00, m= 1.3092e+00] ( 0, 0) [P] 1 pi+ 108 ( 10 -> ) [( 2.9458e+00, 6.5755e-01, 5.8915e-01, 2.8069e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 omega(782) 109 ( 10 -> 29) [( 2.7286e+00, 6.3709e-01, 3.5460e-01, 2.5098e+00), p^2= 6.1438e-01, m= 7.8382e-01] ( 0, 0) [P] 1 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7262e+02, 2.7336e-01,-9.3771e-01,-1.7260e+02), p^2= 6.0066e+00, m= 2.4508e+00] ( 0, 0) [P] 1 Delta(1232)+b 111 ( 10 -> 35) [( 3.4444e+01, 7.1903e-01,-5.7430e-01,-3.4410e+01), p^2= 1.5012e+00, m= 1.2252e+00] ( 0, 0) [P] 1 rho(770)+ 112 ( 10 -> 78) [( 2.8845e+00, 1.2127e+00,-2.3815e+00,-8.5310e-01), p^2= 4.4994e-01, m= 6.7077e-01] ( 0, 0) [P] 1 eta 113 ( 10 -> 60) [( 1.3461e+00, 5.1591e-01,-1.0742e+00,-3.0383e-01), p^2= 2.9954e-01, m= 5.4730e-01] ( 0, 0) [P] 1 Delta(1232)+b 114 ( 10 -> 19) [( 1.9442e+00, 2.5467e-01,-1.5652e+00,-1.4212e-01), p^2= 1.2449e+00, m= 1.1157e+00] ( 0, 0) [P] 1 rho(770)+b 115 ( 10 -> 76) [( 1.5246e+00, 3.4054e-02,-1.1653e+00,-3.6707e-01), p^2= 8.3042e-01, m= 9.1127e-01] ( 0, 0) [P] 1 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0321e+01, 7.6334e+00,-1.7464e-01,-1.8789e+01), p^2= 1.5847e+00, m= 1.2589e+00] ( 0, 0) [P] 1 f(2)(1270) 117 ( 10 -> 57) [( 6.7050e+00, 2.5316e+00,-1.5600e-01,-6.0470e+00), p^2= 1.9576e+00, m= 1.3992e+00] ( 0, 0) [P] 1 pi+b 118 ( 10 -> ) [( 2.2955e+00, 6.9513e-01,-1.6494e+00,-1.4305e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 Delta(1232)++ 119 ( 10 -> 12) [( 3.2902e+00, 9.2239e-01,-1.4363e+00,-2.3196e+00), p^2= 2.5314e+00, m= 1.5910e+00] ( 0, 0) [P] 1 pi+b 120 ( 10 -> ) [( 4.0256e+01, 5.2518e-01, 4.7771e-01,-4.0250e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2345e+01, 1.2548e-01,-3.1313e-01,-4.2316e+01), p^2= 2.3445e+00, m= 1.5312e+00] ( 0, 0) [P] 1 K 122 ( 10 -> 62) [( 1.8631e+01, 1.0533e-01, 1.7969e-01,-1.8624e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 K*(892)b 123 ( 10 -> 85) [( 1.7092e+02,-8.3019e-01, 5.3068e-01,-1.7092e+02), p^2= 7.8430e-01, m= 8.8561e-01] ( 0, 0) [P] 1 K+ 124 ( 10 -> ) [( 8.1415e+00, 1.0503e+00,-8.0097e-02, 8.0579e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+b 125 ( 10 -> ) [( 4.2240e+00, 3.0910e-01,-1.8415e-02, 4.1837e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K 126 ( 10 -> 21) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [P] 1 D(s)*+b 127 ( 10 -> 27) [( 9.8357e+01, 2.6601e+00, 2.2295e-01, 9.8298e+01), p^2= 4.4761e+00, m= 2.1157e+00] ( 0, 0) [P] 1 pi+ 128 ( 10 -> ) [( 1.2186e+00, 1.7442e-01, 7.1882e-02,-1.1958e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770) 129 ( 10 -> 40) [( 8.6467e+00, 2.5955e-01, 2.3964e-01,-8.6301e+00), p^2= 1.6217e-01, m= 4.0271e-01] ( 0, 0) [P] 1 pi+ 130 ( 10 -> ) [( 9.0149e-01,-7.2538e-01,-4.2700e-01, 2.9102e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 b(1)(1235)+b 131 ( 10 -> 54) [( 4.5761e+00,-3.7179e+00,-4.1840e-01, 1.9836e+00), p^2= 3.0074e+00, m= 1.7342e+00] ( 0, 0) [P] 1 rho(770)+ 132 ( 10 -> 84) [( 1.5117e+01,-1.1707e+01, 2.6195e-02, 9.5320e+00), p^2= 6.1319e-01, m= 7.8306e-01] ( 0, 0) [P] 1 n 133 ( 10 -> ) [( 1.2577e+01,-9.7933e+00,-2.2802e-01, 7.8325e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0) [P] 1 pi+b 134 ( 10 -> ) [( 1.2559e+01, 1.2637e+00, 1.6583e+00, 1.2384e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 rho(770)+ 135 ( 10 -> 72) [( 9.7610e+00, 9.9906e-01, 5.5843e-01, 9.6386e+00), p^2= 1.0639e+00, m= 1.0315e+00] ( 0, 0) [P] 1 K(1)(1270) 136 ( 10 -> 80) [( 2.3625e+01, 1.7778e-02, 2.3951e-01, 2.3589e+01), p^2= 1.6593e+00, m= 1.2881e+00] ( 0, 0) [P] 1 f(0)(1370) 137 ( 10 -> 51) [( 8.6161e+01,-7.2480e-01,-2.2229e-01, 8.6135e+01), p^2= 3.9227e+00, m= 1.9806e+00] ( 0, 0) [P] 1 K+b 138 ( 10 -> ) [( 1.3550e+01, 5.4035e-01, 8.1181e-01, 1.3506e+01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 K+ 139 ( 10 -> ) [( 9.3055e+00,-2.6817e-02,-5.4611e-01, 9.2763e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [P] 1 pi 140 ( 10 -> 75) [( 4.2238e+01,-3.1734e-01,-1.5673e-01,-4.2236e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 Delta(1232)++ 141 ( 10 -> 22) [( 9.8812e+01,-8.1640e-02,-5.2432e-01,-9.8803e+01), p^2= 1.5286e+00, m= 1.2364e+00] ( 0, 0) [P] 1 pi 142 ( 10 -> 37) [( 1.8300e+01,-6.8414e-02, 4.6784e-01,-1.8293e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 pi+b 143 ( 10 -> ) [( 8.2235e+01,-6.1059e-01, 9.4360e-01,-8.2227e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 K(2)*(1430) 144 ( 10 -> 15) [( 2.3248e+01, 9.7712e-01, 7.7078e-01, 2.3173e+01), p^2= 1.9529e+00, m= 1.3975e+00] ( 0, 0) [P] 1 K(2)*(1430)b 145 ( 10 -> 77) [( 1.4311e+01, 1.6237e+00,-8.5677e-02, 1.4153e+01), p^2= 1.8606e+00, m= 1.3640e+00] ( 0, 0) [P] 1 Delta(1232)+b 146 ( 10 -> 36) [( 8.6645e+01,-1.1014e+00,-5.3913e-02, 8.6630e+01), p^2= 1.3897e+00, m= 1.1789e+00] ( 0, 0) [P] 1 pi+ 147 ( 10 -> ) [( 1.2620e+01,-2.5501e-01, 1.2932e-01, 1.2616e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 eta 148 ( 10 -> 13) [( 6.0342e+01,-1.0852e-02, 1.5894e-01,-6.0340e+01), p^2= 2.9955e-01, m= 5.4731e-01] ( 0, 0) [P] 1 pi 149 ( 10 -> 14) [( 8.7994e+00, 6.4603e-03, 1.5587e-02,-8.7983e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1071e+00, 1.0332e+00, 4.2733e-01,-6.9137e+00), p^2= 1.4613e+00, m= 1.2088e+00] ( 0, 0) [P] 1 pi+ 151 ( 10 -> ) [( 1.2454e+00, 2.6875e-01, 8.6795e-02,-1.2049e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [P] 1 pi 152 ( 10 -> 47) [( 9.4385e+00, 3.4371e+00, 6.7640e-01,-8.7634e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [P] 1 omega(782) 153 ( 10 -> 82) [( 4.4796e+01, 1.4485e+01, 2.8869e+00,-4.2284e+01), p^2= 6.0955e-01, m= 7.8074e-01] ( 0, 0) [P] 1 rho(770)+ 154 ( 10 -> 33) [( 9.3572e+01, 2.6135e-01,-5.7979e-01,-9.3567e+01), p^2= 6.2103e-01, m= 7.8805e-01] ( 0, 0) [P] 1 rho(770)+b 155 ( 10 -> 56) [( 2.1928e+02,-2.2687e-01,-7.8345e-01,-2.1928e+02), p^2= 5.5988e-01, m= 7.4825e-01] ( 0, 0) [P] 1 omega(782) 156 ( 10 -> 45) [( 3.2156e+01, 8.3196e-01,-3.9626e-01,-3.2133e+01), p^2= 6.1764e-01, m= 7.8590e-01] ( 0, 0) [P] 1 pi+b 157 ( 10 -> ) [( 3.2246e+01, 1.1516e+00,-6.8325e-01,-3.2218e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)  Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0321e+01, 7.6334e+00,-1.7464e-01,-1.8789e+01), p^2= 1.5847e+00, m= 1.2589e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(b(1)(1235)+ 116) { Blob [128]( 11, Hadron Decay , 1 -> 0 @ (3.861e-13,1.451e-13,-3.318e-15,-3.571e-13), Sherpa Incoming particles : [P] 1 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0371e+01, 7.6533e+00,-1.7506e-01,-1.8838e+01), p^2= 1.5117e+00, m= 1.2589e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((20.32,7.633,-0.1746,-18.79)) * p_onshell ((20.37,7.653,-0.1751,-18.84)) Decay_Handler_Base::FillOnshellDecay() { 10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV Blob [128]( 11, Hadron Decay , 1 -> 2 @ (3.861e-13,1.451e-13,-3.318e-15,-3.571e-13), Sherpa Incoming particles : [P] 2 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0371e+01, 7.6533e+00,-1.7506e-01,-1.8838e+01), p^2= 1.5117e+00, m= 1.2589e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 158 ( 11 -> ) [( 1.8084e+01, 6.8079e+00, 9.8350e-02,-1.6735e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [D] 1 pi+ 159 ( 11 -> ) [( 2.2874e+00, 8.4535e-01,-2.7341e-01,-2.1032e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((20.32,7.633,-0.1746,-18.79)) * p_onshell ((20.37,7.653,-0.1751,-18.84)) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(18.08,6.808,0.09835,-16.73) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.259 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 1.119) { 187:mass=0.7817 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 11, Hadron Decay , 1 -> 2 @ (3.861e-13,1.451e-13,-3.318e-15,-3.571e-13), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0321e+01, 7.6334e+00,-1.7464e-01,-1.8789e+01), p^2= 1.5847e+00, m= 1.2589e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) [D] 1 pi+ 159 ( 11 -> ) [( 2.3693e+00, 8.7497e-01,-2.9309e-01,-2.1778e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((20.32,7.633,-0.1746,-18.79)) * p_onshell ((20.37,7.653,-0.1751,-18.84))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=b(1)(1235)+ -> omega(782) pi+) { Blob [128]( 11, Hadron Decay , 1 -> 2 @ (3.861e-13,1.451e-13,-3.318e-15,-3.571e-13), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0321e+01, 7.6334e+00,-1.7464e-01,-1.8789e+01), p^2= 1.5847e+00, m= 1.2589e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) [D] 1 pi+ 159 ( 11 -> ) [( 2.3693e+00, 8.7497e-01,-2.9309e-01,-2.1778e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((20.32,7.633,-0.1746,-18.79)) * p_onshell ((20.37,7.653,-0.1751,-18.84)) Momentum conserved: (-1.097e-12,-4.112e-13,9.381e-15,1.01e-12) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( b(1)(1235)+ -> pi+ omega(782) ) { nbar: 0.02306 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 11, Hadron Decay , 1 -> 2 @ (3.861e-13,1.451e-13,-3.318e-15,-3.571e-13), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 116 ( 10 -> 11) [( 2.0321e+01, 7.6334e+00,-1.7464e-01,-1.8789e+01), p^2= 1.5847e+00, m= 1.2589e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) [D] 1 pi+ 159 ( 11 -> ) [( 2.3693e+00, 8.7497e-01,-2.9309e-01,-2.1778e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((20.32,7.633,-0.1746,-18.79)) * p_onshell ((20.37,7.653,-0.1751,-18.84)) Momentum conserved: (-1.097e-12,-4.112e-13,9.381e-15,1.01e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=omega(782) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(omega(782) 158) { Blob [128]( 88, Hadron Decay , 1 -> 0 @ (5.619e-10,2.115e-10,3.051e-12,-5.2e-10), Sherpa Incoming particles : [D] 1 omega(782) 158 ( 11 -> 88) [( 1.8084e+01, 6.8079e+00, 9.8350e-02,-1.6735e+01), p^2= 6.1143e-01, m= 7.8169e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((17.95,6.758,0.1185,-16.61)) * p_onshell ((18.08,6.808,0.09835,-16.73)) Decay_Handler_Base::FillOnshellDecay() { 223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV Blob [128]( 88, Hadron Decay , 1 -> 3 @ (5.619e-10,2.115e-10,3.051e-12,-5.2e-10), Sherpa Incoming particles : [D] 2 omega(782) 158 ( 11 -> 88) [( 1.8084e+01, 6.8079e+00, 9.8350e-02,-1.6735e+01), p^2= 6.1143e-01, m= 7.8169e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 160 ( 88 -> ) [( 7.4663e+00, 2.7078e+00,-1.5491e-01,-6.9548e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 161 ( 88 -> ) [( 7.1211e+00, 2.8843e+00, 8.8122e-02,-6.5087e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 162 ( 88 -> ) [( 3.4966e+00, 1.2158e+00, 1.6514e-01,-3.2714e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((17.95,6.758,0.1185,-16.61)) * p_onshell ((18.08,6.808,0.09835,-16.73)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(3.497,1.216,0.1651,-3.271) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.7817 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6421 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.5025) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 88, Hadron Decay , 1 -> 3 @ (5.619e-10,2.115e-10,3.051e-12,-5.2e-10), Sherpa Incoming particles : [D] 2 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 160 ( 88 -> ) [( 7.4063e+00, 2.6856e+00,-1.4661e-01,-6.8992e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 161 ( 88 -> ) [( 7.0704e+00, 2.8653e+00, 9.5979e-02,-6.4616e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((17.95,6.758,0.1185,-16.61)) * p_onshell ((18.08,6.808,0.09835,-16.73))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi+ pi+b pi) { Blob [128]( 88, Hadron Decay , 1 -> 3 @ (5.619e-10,2.115e-10,3.051e-12,-5.2e-10), Sherpa Incoming particles : [D] 2 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 160 ( 88 -> ) [( 7.4063e+00, 2.6856e+00,-1.4661e-01,-6.8992e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 161 ( 88 -> ) [( 7.0704e+00, 2.8653e+00, 9.5979e-02,-6.4616e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((17.95,6.758,0.1185,-16.61)) * p_onshell ((18.08,6.808,0.09835,-16.73)) Momentum conserved: (-2.212e-13,-8.171e-14,-1.499e-15,2.025e-13) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( omega(782) -> pi+ pi+b pi ) { nbar: 0.04359 n: 0 -> accept } Blob [0]( 88, Hadron Decay , 1 -> 3 @ (5.619e-10,2.115e-10,3.051e-12,-5.2e-10), Sherpa Incoming particles : [D] 2 omega(782) 158 ( 11 -> 88) [( 1.7951e+01, 6.7585e+00, 1.1845e-01,-1.6612e+01), p^2= 6.1103e-01, m= 7.8169e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 160 ( 88 -> ) [( 7.4063e+00, 2.6856e+00,-1.4661e-01,-6.8992e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 161 ( 88 -> ) [( 7.0704e+00, 2.8653e+00, 9.5979e-02,-6.4616e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((17.95,6.758,0.1185,-16.61)) * p_onshell ((18.08,6.808,0.09835,-16.73)) Momentum conserved: (-2.212e-13,-8.171e-14,-1.499e-15,2.025e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 162) { Blob [128]( 89, Hadron Decay , 1 -> 0 @ (0.002135,0.0007423,0.0001008,-0.001997), Sherpa Incoming particles : [D] 1 pi 162 ( 88 -> 89) [( 3.4966e+00, 1.2158e+00, 1.6514e-01,-3.2714e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.475,1.208,0.1691,-3.251)) * p_onshell ((3.497,1.216,0.1651,-3.271)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 89, Hadron Decay , 1 -> 2 @ (0.002135,0.0007423,0.0001008,-0.001997), Sherpa Incoming particles : [D] 2 pi 162 ( 88 -> 89) [( 3.4966e+00, 1.2158e+00, 1.6514e-01,-3.2714e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 163 ( 89 -> ) [( 1.3817e+00, 4.5077e-01, 1.2372e-01,-1.3002e+00), p^2= 8.5001e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 164 ( 89 -> ) [( 2.1149e+00, 7.6508e-01, 4.1426e-02,-1.9712e+00), p^2= 2.6238e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.475,1.208,0.1691,-3.251)) * p_onshell ((3.497,1.216,0.1651,-3.271)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 89, Hadron Decay , 1 -> 2 @ (0.002135,0.0007423,0.0001008,-0.001997), Sherpa Incoming particles : [D] 2 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 163 ( 89 -> ) [( 1.3753e+00, 4.4829e-01, 1.2540e-01,-1.2941e+00), p^2=-4.0593e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 164 ( 89 -> ) [( 2.0993e+00, 7.5936e-01, 4.3685e-02,-1.9567e+00), p^2=-6.7286e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.475,1.208,0.1691,-3.251)) * p_onshell ((3.497,1.216,0.1651,-3.271))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 89, Hadron Decay , 1 -> 2 @ (0.002135,0.0007423,0.0001008,-0.001997), Sherpa Incoming particles : [D] 2 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 163 ( 89 -> ) [( 1.3753e+00, 4.4829e-01, 1.2540e-01,-1.2941e+00), p^2=-4.0593e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 164 ( 89 -> ) [( 2.0993e+00, 7.5936e-01, 4.3685e-02,-1.9567e+00), p^2=-6.7286e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.475,1.208,0.1691,-3.251)) * p_onshell ((3.497,1.216,0.1651,-3.271)) Momentum conserved: (1.683e-13,5.829e-14,8.167e-15,-1.572e-13) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 89, Hadron Decay , 1 -> 2 @ (0.002135,0.0007423,0.0001008,-0.001997), Sherpa Incoming particles : [D] 2 pi 162 ( 88 -> 89) [( 3.4746e+00, 1.2077e+00, 1.6908e-01,-3.2508e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 163 ( 89 -> ) [( 1.3753e+00, 4.4829e-01, 1.2540e-01,-1.2941e+00), p^2=-4.0593e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 164 ( 89 -> ) [( 2.0993e+00, 7.5936e-01, 4.3685e-02,-1.9567e+00), p^2=-6.7286e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.475,1.208,0.1691,-3.251)) * p_onshell ((3.497,1.216,0.1651,-3.271)) Momentum conserved: (1.683e-13,5.829e-14,8.167e-15,-1.572e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 162") } Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 158") } Decay_Handler_Base::FillDecayTree:338("finished daughters of b(1)(1235)+ 116") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)++ 119 ( 10 -> 12) [( 3.2902e+00, 9.2239e-01,-1.4363e+00,-2.3196e+00), p^2= 2.5314e+00, m= 1.5910e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)++ 119) { Blob [128]( 12, Hadron Decay , 1 -> 0 @ (4.439e-12,1.31e-12,-2.029e-12,-3.295e-12), Sherpa Incoming particles : [P] 1 Delta(1232)++ 119 ( 10 -> 12) [( 3.1460e+00, 9.2830e-01,-1.4377e+00,-2.3348e+00), p^2= 1.5178e+00, m= 1.5910e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((3.29,0.9224,-1.436,-2.32)) * p_onshell ((3.146,0.9283,-1.438,-2.335)) Decay_Handler_Base::FillOnshellDecay() { 2224,2212,211 Delta(1232)++ --> P+ pi+ 0.12 (0.12 ) GeV Blob [128]( 12, Hadron Decay , 1 -> 2 @ (4.439e-12,1.31e-12,-2.029e-12,-3.295e-12), Sherpa Incoming particles : [P] 2 Delta(1232)++ 119 ( 10 -> 12) [( 3.1460e+00, 9.2830e-01,-1.4377e+00,-2.3348e+00), p^2= 1.5178e+00, m= 1.5910e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 165 ( 12 -> ) [( 2.7629e+00, 1.0079e+00,-1.2327e+00,-2.0538e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 166 ( 12 -> ) [( 3.8314e-01,-7.9583e-02,-2.0501e-01,-2.8098e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((3.29,0.9224,-1.436,-2.32)) * p_onshell ((3.146,0.9283,-1.438,-2.335)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.591 > m[P+]=0.9383") Decay_Handler_Base::SetMasses:97("0.6528 > m[pi+]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.05 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 12, Hadron Decay , 1 -> 2 @ (4.439e-12,1.31e-12,-2.029e-12,-3.295e-12), Sherpa Incoming particles : [D] 2 Delta(1232)++ 119 ( 10 -> 12) [( 3.2902e+00, 9.2239e-01,-1.4363e+00,-2.3196e+00), p^2= 2.5314e+00, m= 1.5910e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 165 ( 12 -> ) [( 2.6432e+00, 1.1950e+00,-1.0834e+00,-1.8720e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 166 ( 12 -> ) [( 6.4706e-01,-2.7260e-01,-3.5288e-01,-4.4763e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((3.29,0.9224,-1.436,-2.32)) * p_onshell ((3.146,0.9283,-1.438,-2.335))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)++ -> P+ pi+) { Blob [128]( 12, Hadron Decay , 1 -> 2 @ (4.439e-12,1.31e-12,-2.029e-12,-3.295e-12), Sherpa Incoming particles : [D] 2 Delta(1232)++ 119 ( 10 -> 12) [( 3.2902e+00, 9.2239e-01,-1.4363e+00,-2.3196e+00), p^2= 2.5314e+00, m= 1.5910e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 165 ( 12 -> ) [( 2.6432e+00, 1.1950e+00,-1.0834e+00,-1.8720e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 166 ( 12 -> ) [( 6.4706e-01,-2.7260e-01,-3.5288e-01,-4.4763e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((3.29,0.9224,-1.436,-2.32)) * p_onshell ((3.146,0.9283,-1.438,-2.335)) Momentum conserved: (2.665e-15,7.772e-16,-1.388e-15,-2.331e-15) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,2,0) } Dipole_FI::AddRadiation( Delta(1232)++ -> P+ pi+ ) { Avarage_Photon_Number::Avarage_Photon_Number(3) { back-to-back pair discovered: 2.175 <-> 2.175 back-to-back pair discovered: 4.149 <-> 4.149 back-to-back pair discovered: 3.497 <-> 3.497 all dipoles: [(0,1): 0.005324]: [Delta(1232)++,P+] [(0,2): 0.06555]: [Delta(1232)++,pi+] [(1,2): -0.04725]: [P+,pi+] -> 0.02362 } nbar: 0.02362 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 12, Hadron Decay , 1 -> 2 @ (4.439e-12,1.31e-12,-2.029e-12,-3.295e-12), Sherpa Incoming particles : [D] 2 Delta(1232)++ 119 ( 10 -> 12) [( 3.2902e+00, 9.2239e-01,-1.4363e+00,-2.3196e+00), p^2= 2.5314e+00, m= 1.5910e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 165 ( 12 -> ) [( 2.6432e+00, 1.1950e+00,-1.0834e+00,-1.8720e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 166 ( 12 -> ) [( 6.4706e-01,-2.7260e-01,-3.5288e-01,-4.4763e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((3.29,0.9224,-1.436,-2.32)) * p_onshell ((3.146,0.9283,-1.438,-2.335)) Momentum conserved: (2.665e-15,7.772e-16,-1.388e-15,-2.331e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)++ 119") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 eta 148 ( 10 -> 13) [( 6.0342e+01,-1.0852e-02, 1.5894e-01,-6.0340e+01), p^2= 2.9955e-01, m= 5.4731e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(eta 148) { Blob [128]( 13, Hadron Decay , 1 -> 0 @ (4.73e-06,-8.505e-10,1.246e-08,-4.729e-06), Sherpa Incoming particles : [P] 1 eta 148 ( 10 -> 13) [( 6.0499e+01,-1.0879e-02, 1.5935e-01,-6.0496e+01), p^2= 2.9954e-01, m= 5.4731e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b417d0) * p_actual ((60.34,-0.01085,0.1589,-60.34)) * p_onshell ((60.5,-0.01088,0.1594,-60.5)) Decay_Handler_Base::FillOnshellDecay() { 221,211,-211,111 eta --> pi+ pi+b pi 2.683e-07 (3.304e-09 ) GeV Blob [128]( 13, Hadron Decay , 1 -> 3 @ (4.73e-06,-8.505e-10,1.246e-08,-4.729e-06), Sherpa Incoming particles : [P] 2 eta 148 ( 10 -> 13) [( 6.0499e+01,-1.0879e-02, 1.5935e-01,-6.0496e+01), p^2= 2.9954e-01, m= 5.4731e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 167 ( 13 -> ) [( 1.4046e+01,-8.7009e-02,-7.3896e-02,-1.4045e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 168 ( 13 -> ) [( 2.4364e+01, 7.2291e-03, 1.4533e-01,-2.4363e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 169 ( 13 -> ) [( 2.2089e+01, 6.8900e-02, 8.7922e-02,-2.2088e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b417d0) * p_actual ((60.34,-0.01085,0.1589,-60.34)) * p_onshell ((60.5,-0.01088,0.1594,-60.5)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(22.09,0.0689,0.08792,-22.09) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.5473 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.4077 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.2682) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 13, Hadron Decay , 1 -> 3 @ (4.73e-06,-8.505e-10,1.246e-08,-4.729e-06), Sherpa Incoming particles : [D] 2 eta 148 ( 10 -> 13) [( 6.0342e+01,-1.0852e-02, 1.5894e-01,-6.0340e+01), p^2= 2.9955e-01, m= 5.4731e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 167 ( 13 -> ) [( 1.4010e+01,-8.7007e-02,-7.3997e-02,-1.4009e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 168 ( 13 -> ) [( 2.4301e+01, 7.2409e-03, 1.4517e-01,-2.4300e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b417d0) * p_actual ((60.34,-0.01085,0.1589,-60.34)) * p_onshell ((60.5,-0.01088,0.1594,-60.5))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=eta -> pi+ pi+b pi) { Blob [128]( 13, Hadron Decay , 1 -> 3 @ (4.73e-06,-8.505e-10,1.246e-08,-4.729e-06), Sherpa Incoming particles : [D] 2 eta 148 ( 10 -> 13) [( 6.0342e+01,-1.0852e-02, 1.5894e-01,-6.0340e+01), p^2= 2.9955e-01, m= 5.4731e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 167 ( 13 -> ) [( 1.4010e+01,-8.7007e-02,-7.3997e-02,-1.4009e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 168 ( 13 -> ) [( 2.4301e+01, 7.2409e-03, 1.4517e-01,-2.4300e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b417d0) * p_actual ((60.34,-0.01085,0.1589,-60.34)) * p_onshell ((60.5,-0.01088,0.1594,-60.5)) Momentum conserved: (5.674e-12,-1.013e-15,1.497e-14,-5.684e-12) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( eta -> pi+ pi+b pi ) { nbar: 0.0188 n: 0 -> accept } Blob [0]( 13, Hadron Decay , 1 -> 3 @ (4.73e-06,-8.505e-10,1.246e-08,-4.729e-06), Sherpa Incoming particles : [D] 2 eta 148 ( 10 -> 13) [( 6.0342e+01,-1.0852e-02, 1.5894e-01,-6.0340e+01), p^2= 2.9955e-01, m= 5.4731e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 167 ( 13 -> ) [( 1.4010e+01,-8.7007e-02,-7.3997e-02,-1.4009e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 168 ( 13 -> ) [( 2.4301e+01, 7.2409e-03, 1.4517e-01,-2.4300e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b417d0) * p_actual ((60.34,-0.01085,0.1589,-60.34)) * p_onshell ((60.5,-0.01088,0.1594,-60.5)) Momentum conserved: (5.674e-12,-1.013e-15,1.497e-14,-5.684e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 169) { Blob [128]( 90, Hadron Decay , 1 -> 0 @ (0.0003058,9.383e-07,1.211e-06,-0.0003058), Sherpa Incoming particles : [D] 1 pi 169 ( 13 -> 90) [( 2.2089e+01, 6.8900e-02, 8.7922e-02,-2.2088e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((22.03,0.06891,0.08777,-22.03)) * p_onshell ((22.09,0.0689,0.08792,-22.09)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 90, Hadron Decay , 1 -> 2 @ (0.0003058,9.383e-07,1.211e-06,-0.0003058), Sherpa Incoming particles : [D] 2 pi 169 ( 13 -> 90) [( 2.2089e+01, 6.8900e-02, 8.7922e-02,-2.2088e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 170 ( 90 -> ) [( 1.1524e+01, 3.6930e-02,-2.1547e-02,-1.1524e+01), p^2=-2.2597e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 171 ( 90 -> ) [( 1.0565e+01, 3.1971e-02, 1.0947e-01,-1.0564e+01), p^2= 4.2142e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((22.03,0.06891,0.08777,-22.03)) * p_onshell ((22.09,0.0689,0.08792,-22.09)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 90, Hadron Decay , 1 -> 2 @ (0.0003058,9.383e-07,1.211e-06,-0.0003058), Sherpa Incoming particles : [D] 2 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 170 ( 90 -> ) [( 1.1494e+01, 3.6937e-02,-2.1625e-02,-1.1494e+01), p^2= 3.7264e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 171 ( 90 -> ) [( 1.0538e+01, 3.1977e-02, 1.0940e-01,-1.0537e+01), p^2=-4.8225e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((22.03,0.06891,0.08777,-22.03)) * p_onshell ((22.09,0.0689,0.08792,-22.09))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 90, Hadron Decay , 1 -> 2 @ (0.0003058,9.383e-07,1.211e-06,-0.0003058), Sherpa Incoming particles : [D] 2 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 170 ( 90 -> ) [( 1.1494e+01, 3.6937e-02,-2.1625e-02,-1.1494e+01), p^2= 3.7264e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 171 ( 90 -> ) [( 1.0538e+01, 3.1977e-02, 1.0940e-01,-1.0537e+01), p^2=-4.8225e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((22.03,0.06891,0.08777,-22.03)) * p_onshell ((22.09,0.0689,0.08792,-22.09)) Momentum conserved: (-6.141e-11,-1.921e-13,-2.447e-13,6.141e-11) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 90, Hadron Decay , 1 -> 2 @ (0.0003058,9.383e-07,1.211e-06,-0.0003058), Sherpa Incoming particles : [D] 2 pi 169 ( 13 -> 90) [( 2.2032e+01, 6.8914e-02, 8.7774e-02,-2.2031e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 170 ( 90 -> ) [( 1.1494e+01, 3.6937e-02,-2.1625e-02,-1.1494e+01), p^2= 3.7264e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 171 ( 90 -> ) [( 1.0538e+01, 3.1977e-02, 1.0940e-01,-1.0537e+01), p^2=-4.8225e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((22.03,0.06891,0.08777,-22.03)) * p_onshell ((22.09,0.0689,0.08792,-22.09)) Momentum conserved: (-6.141e-11,-1.921e-13,-2.447e-13,6.141e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 169") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of eta 148") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi 149 ( 10 -> 14) [( 8.7994e+00, 6.4603e-03, 1.5587e-02,-8.7983e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(pi 149) { Blob [128]( 14, Hadron Decay , 1 -> 0 @ (0.006465,4.746e-06,1.145e-05,-0.006464), Sherpa Incoming particles : [P] 1 pi 149 ( 10 -> 14) [( 8.8222e+00, 6.4772e-03, 1.5627e-02,-8.8211e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.799,0.00646,0.01559,-8.798)) * p_onshell ((8.822,0.006477,0.01563,-8.821)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 14, Hadron Decay , 1 -> 2 @ (0.006465,4.746e-06,1.145e-05,-0.006464), Sherpa Incoming particles : [P] 2 pi 149 ( 10 -> 14) [( 8.8222e+00, 6.4772e-03, 1.5627e-02,-8.8211e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 172 ( 14 -> ) [( 1.3006e+00, 4.6559e-02, 1.6776e-02,-1.2996e+00), p^2= 1.6556e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 173 ( 14 -> ) [( 7.5216e+00,-4.0082e-02,-1.1488e-03,-7.5215e+00), p^2= 1.1453e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.799,0.00646,0.01559,-8.798)) * p_onshell ((8.822,0.006477,0.01563,-8.821)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 14, Hadron Decay , 1 -> 2 @ (0.006465,4.746e-06,1.145e-05,-0.006464), Sherpa Incoming particles : [D] 2 pi 149 ( 10 -> 14) [( 8.7994e+00, 6.4603e-03, 1.5587e-02,-8.7983e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 172 ( 14 -> ) [( 1.2972e+00, 4.6557e-02, 1.6770e-02,-1.2963e+00), p^2= 2.4937e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 173 ( 14 -> ) [( 7.5022e+00,-4.0096e-02,-1.1833e-03,-7.5021e+00), p^2= 1.0300e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.799,0.00646,0.01559,-8.798)) * p_onshell ((8.822,0.006477,0.01563,-8.821))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 14, Hadron Decay , 1 -> 2 @ (0.006465,4.746e-06,1.145e-05,-0.006464), Sherpa Incoming particles : [D] 2 pi 149 ( 10 -> 14) [( 8.7994e+00, 6.4603e-03, 1.5587e-02,-8.7983e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 172 ( 14 -> ) [( 1.2972e+00, 4.6557e-02, 1.6770e-02,-1.2963e+00), p^2= 2.4937e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 173 ( 14 -> ) [( 7.5022e+00,-4.0096e-02,-1.1833e-03,-7.5021e+00), p^2= 1.0300e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.799,0.00646,0.01559,-8.798)) * p_onshell ((8.822,0.006477,0.01563,-8.821)) Momentum conserved: (-2.624e-12,-1.922e-15,-4.647e-15,2.622e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 14, Hadron Decay , 1 -> 2 @ (0.006465,4.746e-06,1.145e-05,-0.006464), Sherpa Incoming particles : [D] 2 pi 149 ( 10 -> 14) [( 8.7994e+00, 6.4603e-03, 1.5587e-02,-8.7983e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 172 ( 14 -> ) [( 1.2972e+00, 4.6557e-02, 1.6770e-02,-1.2963e+00), p^2= 2.4937e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 173 ( 14 -> ) [( 7.5022e+00,-4.0096e-02,-1.1833e-03,-7.5021e+00), p^2= 1.0300e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.799,0.00646,0.01559,-8.798)) * p_onshell ((8.822,0.006477,0.01563,-8.821)) Momentum conserved: (-2.624e-12,-1.922e-15,-4.647e-15,2.622e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 149") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K(2)*(1430) 144 ( 10 -> 15) [( 2.3248e+01, 9.7712e-01, 7.7078e-01, 2.3173e+01), p^2= 1.9529e+00, m= 1.3975e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K(2)*(1430) 144) { Blob [128]( 15, Hadron Decay , 1 -> 0 @ (3.868e-11,1.625e-12,1.282e-12,3.855e-11), Sherpa Incoming particles : [P] 1 K(2)*(1430) 144 ( 10 -> 15) [( 2.3310e+01, 9.7960e-01, 7.7274e-01, 2.3233e+01), p^2= 2.0518e+00, m= 1.3975e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bb4dc0) * p_actual ((23.25,0.9771,0.7708,23.17)) * p_onshell ((23.31,0.9796,0.7727,23.23)) Decay_Handler_Base::FillOnshellDecay() { 315,321,-211 K(2)*(1430) --> K+ pi+b 0.03627 (0.000872 ) GeV Blob [128]( 15, Hadron Decay , 1 -> 2 @ (3.868e-11,1.625e-12,1.282e-12,3.855e-11), Sherpa Incoming particles : [P] 2 K(2)*(1430) 144 ( 10 -> 15) [( 2.3310e+01, 9.7960e-01, 7.7274e-01, 2.3233e+01), p^2= 2.0518e+00, m= 1.3975e+00] ( 0, 0) Outgoing particles : [D] 1 K+ 174 ( 15 -> ) [( 8.4543e+00,-2.0161e-01, 3.2157e-01, 8.4314e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+b 175 ( 15 -> ) [( 1.4856e+01, 1.1812e+00, 4.5117e-01, 1.4801e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb4dc0) * p_actual ((23.25,0.9771,0.7708,23.17)) * p_onshell ((23.31,0.9796,0.7727,23.23)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.397 > m[pi+b]=0.1396") Decay_Handler_Base::SetMasses:97("1.258 > m[K+]=0.4937") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9999 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 15, Hadron Decay , 1 -> 2 @ (3.868e-11,1.625e-12,1.282e-12,3.855e-11), Sherpa Incoming particles : [D] 2 K(2)*(1430) 144 ( 10 -> 15) [( 2.3248e+01, 9.7712e-01, 7.7078e-01, 2.3173e+01), p^2= 1.9529e+00, m= 1.3975e+00] ( 0, 0) Outgoing particles : [D] 1 K+ 174 ( 15 -> ) [( 8.4425e+00,-1.8160e-01, 3.1970e-01, 8.4200e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+b 175 ( 15 -> ) [( 1.4806e+01, 1.1587e+00, 4.5108e-01, 1.4753e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb4dc0) * p_actual ((23.25,0.9771,0.7708,23.17)) * p_onshell ((23.31,0.9796,0.7727,23.23))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K(2)*(1430) -> K+ pi+b) { Blob [128]( 15, Hadron Decay , 1 -> 2 @ (3.868e-11,1.625e-12,1.282e-12,3.855e-11), Sherpa Incoming particles : [D] 2 K(2)*(1430) 144 ( 10 -> 15) [( 2.3248e+01, 9.7712e-01, 7.7078e-01, 2.3173e+01), p^2= 1.9529e+00, m= 1.3975e+00] ( 0, 0) Outgoing particles : [D] 1 K+ 174 ( 15 -> ) [( 8.4425e+00,-1.8160e-01, 3.1970e-01, 8.4200e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+b 175 ( 15 -> ) [( 1.4806e+01, 1.1587e+00, 4.5108e-01, 1.4753e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb4dc0) * p_actual ((23.25,0.9771,0.7708,23.17)) * p_onshell ((23.31,0.9796,0.7727,23.23)) Momentum conserved: (4.921e-13,2.065e-14,1.654e-14,4.921e-13) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( K(2)*(1430) -> K+ pi+b ) { nbar: 0.07763 n: 0 -> accept } Blob [0]( 15, Hadron Decay , 1 -> 2 @ (3.868e-11,1.625e-12,1.282e-12,3.855e-11), Sherpa Incoming particles : [D] 2 K(2)*(1430) 144 ( 10 -> 15) [( 2.3248e+01, 9.7712e-01, 7.7078e-01, 2.3173e+01), p^2= 1.9529e+00, m= 1.3975e+00] ( 0, 0) Outgoing particles : [D] 1 K+ 174 ( 15 -> ) [( 8.4425e+00,-1.8160e-01, 3.1970e-01, 8.4200e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+b 175 ( 15 -> ) [( 1.4806e+01, 1.1587e+00, 4.5108e-01, 1.4753e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb4dc0) * p_actual ((23.25,0.9771,0.7708,23.17)) * p_onshell ((23.31,0.9796,0.7727,23.23)) Momentum conserved: (4.921e-13,2.065e-14,1.654e-14,4.921e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K(2)*(1430) 144") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5808e+00,-1.6464e-01,-5.6782e-01,-1.3138e-01), p^2= 2.1322e+00, m= 1.4602e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K(1)(1400)+b 61) { Blob [128]( 16, Hadron Decay , 1 -> 0 @ (4.852e-12,-5.2e-13,-1.805e-12,-4.292e-13), Sherpa Incoming particles : [P] 1 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5277e+00,-1.6374e-01,-5.6843e-01,-1.3515e-01), p^2= 1.9656e+00, m= 1.4602e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bd1050) * p_actual ((1.581,-0.1646,-0.5678,-0.1314)) * p_onshell ((1.528,-0.1637,-0.5684,-0.1351)) Decay_Handler_Base::FillOnshellDecay() { 20323,313,211 K(1)(1400)+ --> K*(892) pi+ 0.1091 (0.000696 ) GeV Blob [128]( 16, Hadron Decay , 1 -> 2 @ (4.852e-12,-5.2e-13,-1.805e-12,-4.292e-13), Sherpa Incoming particles : [P] 2 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5277e+00,-1.6374e-01,-5.6843e-01,-1.3515e-01), p^2= 1.9656e+00, m= 1.4602e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)b 176 ( 16 -> ) [( 1.2166e+00,-2.1623e-02,-8.0485e-01,-1.6984e-01), p^2= 8.0300e-01, m= 8.9610e-01] ( 0, 0) [D] 1 pi+b 177 ( 16 -> ) [( 3.1109e-01,-1.4212e-01, 2.3642e-01, 3.4694e-02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bd1050) * p_actual ((1.581,-0.1646,-0.5678,-0.1314)) * p_onshell ((1.528,-0.1637,-0.5684,-0.1351)) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)b) { Decay_Table::Select(K*(892)) { 134:*selected=313,321,-211 K*(892) --> K+ pi+b 0.03359 (0.03359 ) GeV } 149:inpart->Momentum()=(1.217,-0.02162,-0.8048,-0.1698) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.46 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.6332 < m[K*(892)] < 1.321) { 187:mass=1.042 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.035 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 16, Hadron Decay , 1 -> 2 @ (4.852e-12,-5.2e-13,-1.805e-12,-4.292e-13), Sherpa Incoming particles : [D] 2 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5808e+00,-1.6464e-01,-5.6782e-01,-1.3138e-01), p^2= 2.1322e+00, m= 1.4602e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) [D] 1 pi+b 177 ( 16 -> ) [( 2.7488e-01,-1.2125e-01, 2.0115e-01, 3.0270e-02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bd1050) * p_actual ((1.581,-0.1646,-0.5678,-0.1314)) * p_onshell ((1.528,-0.1637,-0.5684,-0.1351))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K(1)(1400)+b -> K*(892)b pi+b) { Blob [128]( 16, Hadron Decay , 1 -> 2 @ (4.852e-12,-5.2e-13,-1.805e-12,-4.292e-13), Sherpa Incoming particles : [D] 2 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5808e+00,-1.6464e-01,-5.6782e-01,-1.3138e-01), p^2= 2.1322e+00, m= 1.4602e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) [D] 1 pi+b 177 ( 16 -> ) [( 2.7488e-01,-1.2125e-01, 2.0115e-01, 3.0270e-02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bd1050) * p_actual ((1.581,-0.1646,-0.5678,-0.1314)) * p_onshell ((1.528,-0.1637,-0.5684,-0.1351)) Momentum conserved: (0,-4.163e-17,-1.665e-16,-5.204e-17) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( K(1)(1400)+b -> pi+b K*(892)b ) { nbar: 0.02048 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 16, Hadron Decay , 1 -> 2 @ (4.852e-12,-5.2e-13,-1.805e-12,-4.292e-13), Sherpa Incoming particles : [D] 2 K(1)(1400)+b 61 ( 10 -> 16) [( 1.5808e+00,-1.6464e-01,-5.6782e-01,-1.3138e-01), p^2= 2.1322e+00, m= 1.4602e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) [D] 1 pi+b 177 ( 16 -> ) [( 2.7488e-01,-1.2125e-01, 2.0115e-01, 3.0270e-02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bd1050) * p_actual ((1.581,-0.1646,-0.5678,-0.1314)) * p_onshell ((1.528,-0.1637,-0.5684,-0.1351)) Momentum conserved: (0,-4.163e-17,-1.665e-16,-5.204e-17) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K*(892)b Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K*(892)b 176) { Blob [128]( 91, Hadron Decay , 1 -> 0 @ (1.155e-11,-6.39e-13,-6.233e-12,-1.364e-12), Sherpa Incoming particles : [D] 1 K*(892)b 176 ( 16 -> 91) [( 1.2166e+00,-2.1623e-02,-8.0485e-01,-1.6984e-01), p^2= 8.0300e-01, m= 1.0422e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4aa7ca0) * p_actual ((1.306,-0.04338,-0.769,-0.1616)) * p_onshell ((1.217,-0.02162,-0.8048,-0.1698)) Decay_Handler_Base::FillOnshellDecay() { 313,321,-211 K*(892) --> K+ pi+b 0.03359 (0.03359 ) GeV Blob [128]( 91, Hadron Decay , 1 -> 2 @ (1.155e-11,-6.39e-13,-6.233e-12,-1.364e-12), Sherpa Incoming particles : [D] 2 K*(892)b 176 ( 16 -> 91) [( 1.2166e+00,-2.1623e-02,-8.0485e-01,-1.6984e-01), p^2= 8.0300e-01, m= 1.0422e+00] ( 0, 0) Outgoing particles : [D] 1 K+b 178 ( 91 -> ) [( 6.6618e-01, 1.4248e-01,-4.0146e-01, 1.3645e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+ 179 ( 91 -> ) [( 5.5040e-01,-1.6410e-01,-4.0339e-01,-3.0629e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4aa7ca0) * p_actual ((1.306,-0.04338,-0.769,-0.1616)) * p_onshell ((1.217,-0.02162,-0.8048,-0.1698)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.042 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.9026 > m[K+b]=0.4937") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.091 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 91, Hadron Decay , 1 -> 2 @ (1.155e-11,-6.39e-13,-6.233e-12,-1.364e-12), Sherpa Incoming particles : [D] 2 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) Outgoing particles : [D] 1 K+b 178 ( 91 -> ) [( 6.6679e-01, 1.8540e-01,-3.3867e-01, 2.2763e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+ 179 ( 91 -> ) [( 6.3916e-01,-2.2878e-01,-4.3030e-01,-3.8928e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4aa7ca0) * p_actual ((1.306,-0.04338,-0.769,-0.1616)) * p_onshell ((1.217,-0.02162,-0.8048,-0.1698))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K*(892)b -> K+b pi+) { Blob [128]( 91, Hadron Decay , 1 -> 2 @ (1.155e-11,-6.39e-13,-6.233e-12,-1.364e-12), Sherpa Incoming particles : [D] 2 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) Outgoing particles : [D] 1 K+b 178 ( 91 -> ) [( 6.6679e-01, 1.8540e-01,-3.3867e-01, 2.2763e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+ 179 ( 91 -> ) [( 6.3916e-01,-2.2878e-01,-4.3030e-01,-3.8928e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4aa7ca0) * p_actual ((1.306,-0.04338,-0.769,-0.1616)) * p_onshell ((1.217,-0.02162,-0.8048,-0.1698)) Momentum conserved: (-2.22e-16,0,2.22e-16,-5.551e-17) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( K*(892)b -> K+b pi+ ) { nbar: 0.04692 n: 0 -> accept } Blob [0]( 91, Hadron Decay , 1 -> 2 @ (1.155e-11,-6.39e-13,-6.233e-12,-1.364e-12), Sherpa Incoming particles : [D] 2 K*(892)b 176 ( 16 -> 91) [( 1.3059e+00,-4.3385e-02,-7.6897e-01,-1.6165e-01), p^2= 1.0862e+00, m= 1.0422e+00] ( 0, 0) Outgoing particles : [D] 1 K+b 178 ( 91 -> ) [( 6.6679e-01, 1.8540e-01,-3.3867e-01, 2.2763e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi+ 179 ( 91 -> ) [( 6.3916e-01,-2.2878e-01,-4.3030e-01,-3.8928e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4aa7ca0) * p_actual ((1.306,-0.04338,-0.769,-0.1616)) * p_onshell ((1.217,-0.02162,-0.8048,-0.1698)) Momentum conserved: (-2.22e-16,0,2.22e-16,-5.551e-17) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=K+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K*(892)b 176") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K(1)(1400)+b 61") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1071e+00, 1.0332e+00, 4.2733e-01,-6.9137e+00), p^2= 1.4613e+00, m= 1.2088e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(b(1)(1235)+b 150) { Blob [128]( 17, Hadron Decay , 1 -> 0 @ (9.215e-12,1.339e-12,5.538e-13,-8.96e-12), Sherpa Incoming particles : [P] 1 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1284e+00, 1.0358e+00, 4.2839e-01,-6.9315e+00), p^2= 1.5117e+00, m= 1.2088e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((7.107,1.033,0.4273,-6.914)) * p_onshell ((7.128,1.036,0.4284,-6.931)) Decay_Handler_Base::FillOnshellDecay() { 10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV Blob [128]( 17, Hadron Decay , 1 -> 2 @ (9.215e-12,1.339e-12,5.538e-13,-8.96e-12), Sherpa Incoming particles : [P] 2 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1284e+00, 1.0358e+00, 4.2839e-01,-6.9315e+00), p^2= 1.5117e+00, m= 1.2088e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 180 ( 17 -> ) [( 5.2273e+00, 8.3189e-01,-2.1607e-02,-5.1011e+00), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [D] 1 pi+b 181 ( 17 -> ) [( 1.9010e+00, 2.0396e-01, 4.5000e-01,-1.8304e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((7.107,1.033,0.4273,-6.914)) * p_onshell ((7.128,1.036,0.4284,-6.931)) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(5.227,0.8319,-0.02161,-5.101) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.209 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 1.069) { 187:mass=0.7783 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9995 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 17, Hadron Decay , 1 -> 2 @ (9.215e-12,1.339e-12,5.538e-13,-8.96e-12), Sherpa Incoming particles : [D] 2 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1071e+00, 1.0332e+00, 4.2733e-01,-6.9137e+00), p^2= 1.4613e+00, m= 1.2088e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) [D] 1 pi+b 181 ( 17 -> ) [( 1.8625e+00, 2.0123e-01, 4.3498e-01,-1.7943e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((7.107,1.033,0.4273,-6.914)) * p_onshell ((7.128,1.036,0.4284,-6.931))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=b(1)(1235)+b -> omega(782) pi+b) { Blob [128]( 17, Hadron Decay , 1 -> 2 @ (9.215e-12,1.339e-12,5.538e-13,-8.96e-12), Sherpa Incoming particles : [D] 2 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1071e+00, 1.0332e+00, 4.2733e-01,-6.9137e+00), p^2= 1.4613e+00, m= 1.2088e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) [D] 1 pi+b 181 ( 17 -> ) [( 1.8625e+00, 2.0123e-01, 4.3498e-01,-1.7943e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((7.107,1.033,0.4273,-6.914)) * p_onshell ((7.128,1.036,0.4284,-6.931)) Momentum conserved: (-4.108e-14,-6.162e-15,-2.609e-15,4.152e-14) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( b(1)(1235)+b -> pi+b omega(782) ) { nbar: 0.02043 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 17, Hadron Decay , 1 -> 2 @ (9.215e-12,1.339e-12,5.538e-13,-8.96e-12), Sherpa Incoming particles : [D] 2 b(1)(1235)+b 150 ( 10 -> 17) [( 7.1071e+00, 1.0332e+00, 4.2733e-01,-6.9137e+00), p^2= 1.4613e+00, m= 1.2088e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) [D] 1 pi+b 181 ( 17 -> ) [( 1.8625e+00, 2.0123e-01, 4.3498e-01,-1.7943e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((7.107,1.033,0.4273,-6.914)) * p_onshell ((7.128,1.036,0.4284,-6.931)) Momentum conserved: (-4.108e-14,-6.162e-15,-2.609e-15,4.152e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=omega(782) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(omega(782) 180) { Blob [128]( 92, Hadron Decay , 1 -> 0 @ (1.921e-11,2.929e-12,5.125e-13,-1.871e-11), Sherpa Incoming particles : [D] 1 omega(782) 180 ( 17 -> 92) [( 5.2273e+00, 8.3189e-01,-2.1607e-02,-5.1011e+00), p^2= 6.1143e-01, m= 7.7830e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((5.245,0.832,-0.007651,-5.119)) * p_onshell ((5.227,0.8319,-0.02161,-5.101)) Decay_Handler_Base::FillOnshellDecay() { 223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV Blob [128]( 92, Hadron Decay , 1 -> 3 @ (1.921e-11,2.929e-12,5.125e-13,-1.871e-11), Sherpa Incoming particles : [D] 2 omega(782) 180 ( 17 -> 92) [( 5.2273e+00, 8.3189e-01,-2.1607e-02,-5.1011e+00), p^2= 6.1143e-01, m= 7.7830e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 182 ( 92 -> ) [( 1.8998e+00, 2.0886e-01,-9.9366e-02,-1.8805e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 183 ( 92 -> ) [( 9.4303e-01, 9.2186e-03, 1.4432e-01,-9.2137e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 184 ( 92 -> ) [( 2.3844e+00, 6.1380e-01,-6.6564e-02,-2.2992e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((5.245,0.832,-0.007651,-5.119)) * p_onshell ((5.227,0.8319,-0.02161,-5.101)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(2.384,0.6138,-0.06656,-2.299) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.7783 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6387 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.4992) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9999 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 92, Hadron Decay , 1 -> 3 @ (1.921e-11,2.929e-12,5.125e-13,-1.871e-11), Sherpa Incoming particles : [D] 2 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 182 ( 92 -> ) [( 1.9074e+00, 2.0987e-01,-9.3782e-02,-1.8883e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 183 ( 92 -> ) [( 9.4769e-01, 1.0427e-02, 1.4606e-01,-9.2585e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((5.245,0.832,-0.007651,-5.119)) * p_onshell ((5.227,0.8319,-0.02161,-5.101))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi+ pi+b pi) { Blob [128]( 92, Hadron Decay , 1 -> 3 @ (1.921e-11,2.929e-12,5.125e-13,-1.871e-11), Sherpa Incoming particles : [D] 2 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 182 ( 92 -> ) [( 1.9074e+00, 2.0987e-01,-9.3782e-02,-1.8883e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 183 ( 92 -> ) [( 9.4769e-01, 1.0427e-02, 1.4606e-01,-9.2585e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((5.245,0.832,-0.007651,-5.119)) * p_onshell ((5.227,0.8319,-0.02161,-5.101)) Momentum conserved: (2.709e-14,4.552e-15,-1.527e-16,-2.753e-14) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( omega(782) -> pi+ pi+b pi ) { nbar: 0.03229 n: 0 -> accept } Blob [0]( 92, Hadron Decay , 1 -> 3 @ (1.921e-11,2.929e-12,5.125e-13,-1.871e-11), Sherpa Incoming particles : [D] 2 omega(782) 180 ( 17 -> 92) [( 5.2446e+00, 8.3201e-01,-7.6509e-03,-5.1194e+00), p^2= 6.0575e-01, m= 7.7830e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 182 ( 92 -> ) [( 1.9074e+00, 2.0987e-01,-9.3782e-02,-1.8883e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 183 ( 92 -> ) [( 9.4769e-01, 1.0427e-02, 1.4606e-01,-9.2585e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((5.245,0.832,-0.007651,-5.119)) * p_onshell ((5.227,0.8319,-0.02161,-5.101)) Momentum conserved: (2.709e-14,4.552e-15,-1.527e-16,-2.753e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 184) { Blob [128]( 93, Hadron Decay , 1 -> 0 @ (0.000582,0.0001498,-1.625e-05,-0.0005612), Sherpa Incoming particles : [D] 1 pi 184 ( 92 -> 93) [( 2.3844e+00, 6.1380e-01,-6.6564e-02,-2.2992e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.39,0.6117,-0.05993,-2.305)) * p_onshell ((2.384,0.6138,-0.06656,-2.299)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 93, Hadron Decay , 1 -> 2 @ (0.000582,0.0001498,-1.625e-05,-0.0005612), Sherpa Incoming particles : [D] 2 pi 184 ( 92 -> 93) [( 2.3844e+00, 6.1380e-01,-6.6564e-02,-2.2992e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 185 ( 93 -> ) [( 1.4167e+00, 3.9375e-01, 1.9782e-02,-1.3607e+00), p^2= 6.1528e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 186 ( 93 -> ) [( 9.6776e-01, 2.2005e-01,-8.6346e-02,-9.3845e-01), p^2=-2.0643e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.39,0.6117,-0.05993,-2.305)) * p_onshell ((2.384,0.6138,-0.06656,-2.299)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 93, Hadron Decay , 1 -> 2 @ (0.000582,0.0001498,-1.625e-05,-0.0005612), Sherpa Incoming particles : [D] 2 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 185 ( 93 -> ) [( 1.4219e+00, 3.9306e-01, 2.3637e-02,-1.3663e+00), p^2= 3.7589e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 186 ( 93 -> ) [( 9.6763e-01, 2.1865e-01,-8.3567e-02,-9.3889e-01), p^2=-6.7654e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.39,0.6117,-0.05993,-2.305)) * p_onshell ((2.384,0.6138,-0.06656,-2.299))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 93, Hadron Decay , 1 -> 2 @ (0.000582,0.0001498,-1.625e-05,-0.0005612), Sherpa Incoming particles : [D] 2 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 185 ( 93 -> ) [( 1.4219e+00, 3.9306e-01, 2.3637e-02,-1.3663e+00), p^2= 3.7589e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 186 ( 93 -> ) [( 9.6763e-01, 2.1865e-01,-8.3567e-02,-9.3889e-01), p^2=-6.7654e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.39,0.6117,-0.05993,-2.305)) * p_onshell ((2.384,0.6138,-0.06656,-2.299)) Momentum conserved: (2.442e-15,4.996e-16,-2.776e-17,-1.998e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 93, Hadron Decay , 1 -> 2 @ (0.000582,0.0001498,-1.625e-05,-0.0005612), Sherpa Incoming particles : [D] 2 pi 184 ( 92 -> 93) [( 2.3895e+00, 6.1171e-01,-5.9929e-02,-2.3052e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 185 ( 93 -> ) [( 1.4219e+00, 3.9306e-01, 2.3637e-02,-1.3663e+00), p^2= 3.7589e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 186 ( 93 -> ) [( 9.6763e-01, 2.1865e-01,-8.3567e-02,-9.3889e-01), p^2=-6.7654e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.39,0.6117,-0.05993,-2.305)) * p_onshell ((2.384,0.6138,-0.06656,-2.299)) Momentum conserved: (2.442e-15,4.996e-16,-2.776e-17,-1.998e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 184") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 180") } Decay_Handler_Base::FillDecayTree:338("finished daughters of b(1)(1235)+b 150") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1486e+01, 6.8562e+00,-1.8541e+00,-8.9633e+00), p^2= 1.1351e+00, m= 1.0654e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(b(1)(1235)+ 58) { Blob [128]( 18, Hadron Decay , 1 -> 0 @ (1.409e-11,8.401e-12,-2.272e-12,-1.098e-11), Sherpa Incoming particles : [P] 1 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1531e+01, 6.8736e+00,-1.8591e+00,-8.9857e+00), p^2= 1.5117e+00, m= 1.0654e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((11.49,6.856,-1.854,-8.963)) * p_onshell ((11.53,6.874,-1.859,-8.986)) Decay_Handler_Base::FillOnshellDecay() { 10213,223,211 b(1)(1235)+ --> omega(782) pi+ 0.1418 (0.1418 ) GeV Blob [128]( 18, Hadron Decay , 1 -> 2 @ (1.409e-11,8.401e-12,-2.272e-12,-1.098e-11), Sherpa Incoming particles : [P] 2 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1531e+01, 6.8736e+00,-1.8591e+00,-8.9857e+00), p^2= 1.5117e+00, m= 1.0654e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 187 ( 18 -> ) [( 6.5233e+00, 4.0805e+00,-8.4664e-01,-4.9572e+00), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [D] 1 pi+ 188 ( 18 -> ) [( 5.0074e+00, 2.7931e+00,-1.0125e+00,-4.0284e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((11.49,6.856,-1.854,-8.963)) * p_onshell ((11.53,6.874,-1.859,-8.986)) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(6.523,4.081,-0.8466,-4.957) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.065 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 0.9259) { 187:mass=0.7809 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9986 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 18, Hadron Decay , 1 -> 2 @ (1.409e-11,8.401e-12,-2.272e-12,-1.098e-11), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1486e+01, 6.8562e+00,-1.8541e+00,-8.9633e+00), p^2= 1.1351e+00, m= 1.0654e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) [D] 1 pi+ 188 ( 18 -> ) [( 3.9436e+00, 2.2396e+00,-7.5900e-01,-3.1529e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((11.49,6.856,-1.854,-8.963)) * p_onshell ((11.53,6.874,-1.859,-8.986))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=b(1)(1235)+ -> omega(782) pi+) { Blob [128]( 18, Hadron Decay , 1 -> 2 @ (1.409e-11,8.401e-12,-2.272e-12,-1.098e-11), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1486e+01, 6.8562e+00,-1.8541e+00,-8.9633e+00), p^2= 1.1351e+00, m= 1.0654e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) [D] 1 pi+ 188 ( 18 -> ) [( 3.9436e+00, 2.2396e+00,-7.5900e-01,-3.1529e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((11.49,6.856,-1.854,-8.963)) * p_onshell ((11.53,6.874,-1.859,-8.986)) Momentum conserved: (-1.839e-13,-1.101e-13,2.942e-14,1.443e-13) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( b(1)(1235)+ -> pi+ omega(782) ) { nbar: 0.01092 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 18, Hadron Decay , 1 -> 2 @ (1.409e-11,8.401e-12,-2.272e-12,-1.098e-11), Sherpa Incoming particles : [D] 2 b(1)(1235)+ 58 ( 10 -> 18) [( 1.1486e+01, 6.8562e+00,-1.8541e+00,-8.9633e+00), p^2= 1.1351e+00, m= 1.0654e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) [D] 1 pi+ 188 ( 18 -> ) [( 3.9436e+00, 2.2396e+00,-7.5900e-01,-3.1529e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc4560) * p_actual ((11.49,6.856,-1.854,-8.963)) * p_onshell ((11.53,6.874,-1.859,-8.986)) Momentum conserved: (-1.839e-13,-1.101e-13,2.942e-14,1.443e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=omega(782) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(omega(782) 187) { Blob [128]( 94, Hadron Decay , 1 -> 0 @ (1.267e-10,7.886e-11,-1.689e-11,-9.658e-11), Sherpa Incoming particles : [D] 1 omega(782) 187 ( 18 -> 94) [( 6.5233e+00, 4.0805e+00,-8.4664e-01,-4.9572e+00), p^2= 6.1143e-01, m= 7.8087e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((7.542,4.617,-1.095,-5.81)) * p_onshell ((6.523,4.081,-0.8466,-4.957)) Decay_Handler_Base::FillOnshellDecay() { 223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV Blob [128]( 94, Hadron Decay , 1 -> 3 @ (1.267e-10,7.886e-11,-1.689e-11,-9.658e-11), Sherpa Incoming particles : [D] 2 omega(782) 187 ( 18 -> 94) [( 6.5233e+00, 4.0805e+00,-8.4664e-01,-4.9572e+00), p^2= 6.1143e-01, m= 7.8087e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 189 ( 94 -> ) [( 5.7339e-01, 4.4100e-01,-7.1424e-02,-3.3124e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 190 ( 94 -> ) [( 4.2528e+00, 2.6316e+00,-4.4486e-01,-3.3081e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 191 ( 94 -> ) [( 1.6971e+00, 1.0079e+00,-3.3036e-01,-1.3179e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((7.542,4.617,-1.095,-5.81)) * p_onshell ((6.523,4.081,-0.8466,-4.957)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.697,1.008,-0.3304,-1.318) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.7809 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6413 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.5017) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 94, Hadron Decay , 1 -> 3 @ (1.267e-10,7.886e-11,-1.689e-11,-9.658e-11), Sherpa Incoming particles : [D] 2 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 189 ( 94 -> ) [( 6.3827e-01, 4.7327e-01,-9.3716e-02,-3.9389e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 190 ( 94 -> ) [( 4.9152e+00, 2.9810e+00,-6.0347e-01,-3.8586e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((7.542,4.617,-1.095,-5.81)) * p_onshell ((6.523,4.081,-0.8466,-4.957))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi+ pi+b pi) { Blob [128]( 94, Hadron Decay , 1 -> 3 @ (1.267e-10,7.886e-11,-1.689e-11,-9.658e-11), Sherpa Incoming particles : [D] 2 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 189 ( 94 -> ) [( 6.3827e-01, 4.7327e-01,-9.3716e-02,-3.9389e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 190 ( 94 -> ) [( 4.9152e+00, 2.9810e+00,-6.0347e-01,-3.8586e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((7.542,4.617,-1.095,-5.81)) * p_onshell ((6.523,4.081,-0.8466,-4.957)) Momentum conserved: (-9.17e-14,-5.729e-14,1.366e-14,7.216e-14) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( omega(782) -> pi+ pi+b pi ) { nbar: 0.05435 n: 0 -> accept } Blob [0]( 94, Hadron Decay , 1 -> 3 @ (1.267e-10,7.886e-11,-1.689e-11,-9.658e-11), Sherpa Incoming particles : [D] 2 omega(782) 187 ( 18 -> 94) [( 7.5421e+00, 4.6166e+00,-1.0951e+00,-5.8104e+00), p^2= 6.0976e-01, m= 7.8087e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 189 ( 94 -> ) [( 6.3827e-01, 4.7327e-01,-9.3716e-02,-3.9389e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 190 ( 94 -> ) [( 4.9152e+00, 2.9810e+00,-6.0347e-01,-3.8586e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((7.542,4.617,-1.095,-5.81)) * p_onshell ((6.523,4.081,-0.8466,-4.957)) Momentum conserved: (-9.17e-14,-5.729e-14,1.366e-14,7.216e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 191) { Blob [128]( 95, Hadron Decay , 1 -> 0 @ (6.267e-05,3.722e-05,-1.22e-05,-4.867e-05), Sherpa Incoming particles : [D] 1 pi 191 ( 94 -> 95) [( 1.6971e+00, 1.0079e+00,-3.3036e-01,-1.3179e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.989,1.162,-0.3979,-1.558)) * p_onshell ((1.697,1.008,-0.3304,-1.318)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 95, Hadron Decay , 1 -> 2 @ (6.267e-05,3.722e-05,-1.22e-05,-4.867e-05), Sherpa Incoming particles : [D] 2 pi 191 ( 94 -> 95) [( 1.6971e+00, 1.0079e+00,-3.3036e-01,-1.3179e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 192 ( 95 -> ) [( 1.5459e+00, 8.9013e-01,-3.0574e-01,-1.2263e+00), p^2=-2.3592e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 193 ( 95 -> ) [( 1.5121e-01, 1.1782e-01,-2.4613e-02,-9.1522e-02), p^2=-8.6736e-19, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.989,1.162,-0.3979,-1.558)) * p_onshell ((1.697,1.008,-0.3304,-1.318)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 95, Hadron Decay , 1 -> 2 @ (6.267e-05,3.722e-05,-1.22e-05,-4.867e-05), Sherpa Incoming particles : [D] 2 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 192 ( 95 -> ) [( 1.8189e+00, 1.0350e+00,-3.6827e-01,-1.4497e+00), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 193 ( 95 -> ) [( 1.6970e-01, 1.2732e-01,-2.9618e-02,-1.0821e-01), p^2=-1.2685e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.989,1.162,-0.3979,-1.558)) * p_onshell ((1.697,1.008,-0.3304,-1.318))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 95, Hadron Decay , 1 -> 2 @ (6.267e-05,3.722e-05,-1.22e-05,-4.867e-05), Sherpa Incoming particles : [D] 2 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 192 ( 95 -> ) [( 1.8189e+00, 1.0350e+00,-3.6827e-01,-1.4497e+00), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 193 ( 95 -> ) [( 1.6970e-01, 1.2732e-01,-2.9618e-02,-1.0821e-01), p^2=-1.2685e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.989,1.162,-0.3979,-1.558)) * p_onshell ((1.697,1.008,-0.3304,-1.318)) Momentum conserved: (3.253e-14,1.907e-14,-6.488e-15,-2.584e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 95, Hadron Decay , 1 -> 2 @ (6.267e-05,3.722e-05,-1.22e-05,-4.867e-05), Sherpa Incoming particles : [D] 2 pi 191 ( 94 -> 95) [( 1.9886e+00, 1.1623e+00,-3.9788e-01,-1.5579e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 192 ( 95 -> ) [( 1.8189e+00, 1.0350e+00,-3.6827e-01,-1.4497e+00), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 193 ( 95 -> ) [( 1.6970e-01, 1.2732e-01,-2.9618e-02,-1.0821e-01), p^2=-1.2685e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.989,1.162,-0.3979,-1.558)) * p_onshell ((1.697,1.008,-0.3304,-1.318)) Momentum conserved: (3.253e-14,1.907e-14,-6.488e-15,-2.584e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 191") } Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 187") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of b(1)(1235)+ 58") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)+b 114 ( 10 -> 19) [( 1.9442e+00, 2.5467e-01,-1.5652e+00,-1.4212e-01), p^2= 1.2449e+00, m= 1.1157e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)+b 114) { Blob [128]( 19, Hadron Decay , 1 -> 0 @ (4.773e-15,6.006e-16,-3.716e-15,-3.276e-16), Sherpa Incoming particles : [P] 1 Delta(1232)+b 114 ( 10 -> 19) [( 2.0167e+00, 2.5377e-01,-1.5703e+00,-1.3844e-01), p^2= 1.5178e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((1.944,0.2547,-1.565,-0.1421)) * p_onshell ((2.017,0.2538,-1.57,-0.1384)) Decay_Handler_Base::FillOnshellDecay() { 2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV Blob [128]( 19, Hadron Decay , 1 -> 2 @ (4.773e-15,6.006e-16,-3.716e-15,-3.276e-16), Sherpa Incoming particles : [P] 2 Delta(1232)+b 114 ( 10 -> 19) [( 2.0167e+00, 2.5377e-01,-1.5703e+00,-1.3844e-01), p^2= 1.5178e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 194 ( 19 -> ) [( 1.3311e+00, 2.7085e-01,-9.0181e-01,-6.9911e-02), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 195 ( 19 -> ) [( 6.8561e-01,-1.7078e-02,-6.6847e-01,-6.8530e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((1.944,0.2547,-1.565,-0.1421)) * p_onshell ((2.017,0.2538,-1.57,-0.1384)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.6856,-0.01708,-0.6685,-0.06853) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.116 > m[P+b]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.1775) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9659 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 19, Hadron Decay , 1 -> 2 @ (4.773e-15,6.006e-16,-3.716e-15,-3.276e-16), Sherpa Incoming particles : [D] 2 Delta(1232)+b 114 ( 10 -> 19) [( 1.9442e+00, 2.5467e-01,-1.5652e+00,-1.4212e-01), p^2= 1.2449e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 194 ( 19 -> ) [( 1.5161e+00, 2.4413e-01,-1.1611e+00,-1.0146e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((1.944,0.2547,-1.565,-0.1421)) * p_onshell ((2.017,0.2538,-1.57,-0.1384))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)+b -> P+b pi) { Blob [128]( 19, Hadron Decay , 1 -> 2 @ (4.773e-15,6.006e-16,-3.716e-15,-3.276e-16), Sherpa Incoming particles : [D] 2 Delta(1232)+b 114 ( 10 -> 19) [( 1.9442e+00, 2.5467e-01,-1.5652e+00,-1.4212e-01), p^2= 1.2449e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 194 ( 19 -> ) [( 1.5161e+00, 2.4413e-01,-1.1611e+00,-1.0146e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((1.944,0.2547,-1.565,-0.1421)) * p_onshell ((2.017,0.2538,-1.57,-0.1384)) Momentum conserved: (8.882e-16,4.163e-17,-5.551e-16,0) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Delta(1232)+b -> P+b pi ) { nbar: 7.78e-05 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 19, Hadron Decay , 1 -> 2 @ (4.773e-15,6.006e-16,-3.716e-15,-3.276e-16), Sherpa Incoming particles : [D] 2 Delta(1232)+b 114 ( 10 -> 19) [( 1.9442e+00, 2.5467e-01,-1.5652e+00,-1.4212e-01), p^2= 1.2449e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 194 ( 19 -> ) [( 1.5161e+00, 2.4413e-01,-1.1611e+00,-1.0146e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((1.944,0.2547,-1.565,-0.1421)) * p_onshell ((2.017,0.2538,-1.57,-0.1384)) Momentum conserved: (8.882e-16,4.163e-17,-5.551e-16,0) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 195) { Blob [128]( 96, Hadron Decay , 1 -> 0 @ (4.354e-06,-1.085e-07,-4.245e-06,-4.352e-07), Sherpa Incoming particles : [D] 1 pi 195 ( 19 -> 96) [( 6.8561e-01,-1.7078e-02,-6.6847e-01,-6.8530e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.4281,0.01053,-0.4041,-0.04066)) * p_onshell ((0.6856,-0.01708,-0.6685,-0.06853)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 96, Hadron Decay , 1 -> 2 @ (4.354e-06,-1.085e-07,-4.245e-06,-4.352e-07), Sherpa Incoming particles : [D] 2 pi 195 ( 19 -> 96) [( 6.8561e-01,-1.7078e-02,-6.6847e-01,-6.8530e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 196 ( 96 -> ) [( 4.4679e-01, 3.3319e-02,-4.4555e-01, 7.4339e-04), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 197 ( 96 -> ) [( 2.3882e-01,-5.0397e-02,-2.2293e-01,-6.9273e-02), p^2= 6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.4281,0.01053,-0.4041,-0.04066)) * p_onshell ((0.6856,-0.01708,-0.6685,-0.06853)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 96, Hadron Decay , 1 -> 2 @ (4.354e-06,-1.085e-07,-4.245e-06,-4.352e-07), Sherpa Incoming particles : [D] 2 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 196 ( 96 -> ) [( 2.8397e-01, 5.0597e-02,-2.7882e-01, 1.8314e-02), p^2=-1.3878e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 197 ( 96 -> ) [( 1.4414e-01,-4.0063e-02,-1.2528e-01,-5.8975e-02), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.4281,0.01053,-0.4041,-0.04066)) * p_onshell ((0.6856,-0.01708,-0.6685,-0.06853))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 96, Hadron Decay , 1 -> 2 @ (4.354e-06,-1.085e-07,-4.245e-06,-4.352e-07), Sherpa Incoming particles : [D] 2 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 196 ( 96 -> ) [( 2.8397e-01, 5.0597e-02,-2.7882e-01, 1.8314e-02), p^2=-1.3878e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 197 ( 96 -> ) [( 1.4414e-01,-4.0063e-02,-1.2528e-01,-5.8975e-02), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.4281,0.01053,-0.4041,-0.04066)) * p_onshell ((0.6856,-0.01708,-0.6685,-0.06853)) Momentum conserved: (1.082e-15,2.082e-17,-9.992e-16,-1.041e-16) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 96, Hadron Decay , 1 -> 2 @ (4.354e-06,-1.085e-07,-4.245e-06,-4.352e-07), Sherpa Incoming particles : [D] 2 pi 195 ( 19 -> 96) [( 4.2811e-01, 1.0534e-02,-4.0410e-01,-4.0661e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 196 ( 96 -> ) [( 2.8397e-01, 5.0597e-02,-2.7882e-01, 1.8314e-02), p^2=-1.3878e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 197 ( 96 -> ) [( 1.4414e-01,-4.0063e-02,-1.2528e-01,-5.8975e-02), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.4281,0.01053,-0.4041,-0.04066)) * p_onshell ((0.6856,-0.01708,-0.6685,-0.06853)) Momentum conserved: (1.082e-15,2.082e-17,-9.992e-16,-1.041e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 195") } Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)+b 114") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi 84 ( 10 -> 20) [( 1.0685e+00, 2.6361e-01,-1.1329e-02, 1.0266e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(pi 84) { Blob [128]( 20, Hadron Decay , 1 -> 0 @ (3.658e-05,9.025e-06,-3.878e-07,3.515e-05), Sherpa Incoming particles : [P] 1 pi 84 ( 10 -> 20) [( 1.0712e+00, 2.6429e-01,-1.1357e-02, 1.0292e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.069,0.2636,-0.01133,1.027)) * p_onshell ((1.071,0.2643,-0.01136,1.029)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 20, Hadron Decay , 1 -> 2 @ (3.658e-05,9.025e-06,-3.878e-07,3.515e-05), Sherpa Incoming particles : [P] 2 pi 84 ( 10 -> 20) [( 1.0712e+00, 2.6429e-01,-1.1357e-02, 1.0292e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 198 ( 20 -> ) [( 9.3789e-01, 2.0425e-01,-4.2700e-02, 9.1438e-01), p^2=-1.9949e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 199 ( 20 -> ) [( 1.3333e-01, 6.0038e-02, 3.1342e-02, 1.1485e-01), p^2=-9.5410e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.069,0.2636,-0.01133,1.027)) * p_onshell ((1.071,0.2643,-0.01136,1.029)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 20, Hadron Decay , 1 -> 2 @ (3.658e-05,9.025e-06,-3.878e-07,3.515e-05), Sherpa Incoming particles : [D] 2 pi 84 ( 10 -> 20) [( 1.0685e+00, 2.6361e-01,-1.1329e-02, 1.0266e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 198 ( 20 -> ) [( 9.3549e-01, 2.0365e-01,-4.2674e-02, 9.1206e-01), p^2= 2.4395e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 199 ( 20 -> ) [( 1.3301e-01, 5.9953e-02, 3.1346e-02, 1.1452e-01), p^2= 5.6379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.069,0.2636,-0.01133,1.027)) * p_onshell ((1.071,0.2643,-0.01136,1.029))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 20, Hadron Decay , 1 -> 2 @ (3.658e-05,9.025e-06,-3.878e-07,3.515e-05), Sherpa Incoming particles : [D] 2 pi 84 ( 10 -> 20) [( 1.0685e+00, 2.6361e-01,-1.1329e-02, 1.0266e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 198 ( 20 -> ) [( 9.3549e-01, 2.0365e-01,-4.2674e-02, 9.1206e-01), p^2= 2.4395e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 199 ( 20 -> ) [( 1.3301e-01, 5.9953e-02, 3.1346e-02, 1.1452e-01), p^2= 5.6379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.069,0.2636,-0.01133,1.027)) * p_onshell ((1.071,0.2643,-0.01136,1.029)) Momentum conserved: (-5.607e-15,-1.374e-15,6.245e-17,-5.44e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 20, Hadron Decay , 1 -> 2 @ (3.658e-05,9.025e-06,-3.878e-07,3.515e-05), Sherpa Incoming particles : [D] 2 pi 84 ( 10 -> 20) [( 1.0685e+00, 2.6361e-01,-1.1329e-02, 1.0266e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 198 ( 20 -> ) [( 9.3549e-01, 2.0365e-01,-4.2674e-02, 9.1206e-01), p^2= 2.4395e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 199 ( 20 -> ) [( 1.3301e-01, 5.9953e-02, 3.1346e-02, 1.1452e-01), p^2= 5.6379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.069,0.2636,-0.01133,1.027)) * p_onshell ((1.071,0.2643,-0.01136,1.029)) Momentum conserved: (-5.607e-15,-1.374e-15,6.245e-17,-5.44e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 84") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 103 ( 10 -> ) [( 1.0680e+02,-4.9276e-02, 5.2389e-02, 1.0680e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K 126 ( 10 -> 21) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K 126) { Blob [128]( 21, Hadron Decay , 1 -> 0 @ (0,0,0,0), Sherpa Incoming particles : [P] 1 K 126 ( 10 -> 21) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b42870) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Decay_Handler_Base::FillOnshellDecay() { 311,310 K --> K(S) 5e-17 (5e-17 ) GeV Blob [128]( 21, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [P] 2 K 126 ( 10 -> 21) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 200 ( 21 -> ) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) } Hadron_Decay_Handler::CreateDecayBlob(K(S)) { Decay_Table::Select(K(S)) { 134:*selected=310,111,111 K(S) --> pi pi 2.257e-15 (3.687e-18 ) GeV } 149:inpart->Momentum()=(14.58,0.5702,0.3312,14.55) } Decay_Handler_Base::SetMasses(1) { } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 21, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 126 ( 10 -> 21) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K -> K(S)) { Blob [128]( 21, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 126 ( 10 -> 21) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Momentum conserved: (0,0,0,0) Define_Dipole::Define_Dipole() { Undefined(0,1,0,1) } Blob [0]( 21, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 126 ( 10 -> 21) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Momentum conserved: (0,0,0,0) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K(S) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K(S) 200) { Blob [128]( 97, Hadron Decay , 1 -> 0 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 1 K(S) 200 ( 21 -> 97) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Decay_Handler_Base::FillOnshellDecay() { 310,111,111 K(S) --> pi pi 2.257e-15 (3.687e-18 ) GeV Blob [128]( 97, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 K(S) 200 ( 21 -> 97) [( 1.4577e+01, 5.7018e-01, 3.3118e-01, 1.4553e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 201 ( 97 -> ) [( 4.3038e+00, 2.1116e-02,-1.0004e-02, 4.3016e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 202 ( 97 -> ) [( 1.0273e+01, 5.4906e-01, 3.4119e-01, 1.0252e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(10.27,0.5491,0.3412,10.25) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(4.304,0.02112,-0.01,4.302) } Decay_Handler_Base::SetMasses(2) { Decay_Channel::GenerateMass(0 < m[pi] < 0.4977) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 0.3627) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 97, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K(S) -> pi pi) { Blob [128]( 97, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Momentum conserved: (7.176e-13,2.798e-14,1.632e-14,7.123e-13) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 97, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 K(S) 200 ( 21 -> 97) [( 1.4539e+01, 5.6871e-01, 3.3033e-01, 1.4516e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((14.54,0.5687,0.3303,14.52)) * p_onshell ((14.58,0.5702,0.3312,14.55)) Momentum conserved: (7.176e-13,2.798e-14,1.632e-14,7.123e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 202) { Blob [128]( 98, Hadron Decay , 1 -> 0 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 1 pi 202 ( 97 -> 98) [( 1.0273e+01, 5.4906e-01, 3.4119e-01, 1.0252e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((10.25,0.548,0.3406,10.23)) * p_onshell ((10.27,0.5491,0.3412,10.25)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 98, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 202 ( 97 -> 98) [( 1.0273e+01, 5.4906e-01, 3.4119e-01, 1.0252e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 203 ( 98 -> ) [( 1.8430e+00, 1.2999e-01, 2.0100e-02, 1.8383e+00), p^2= 3.2694e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 204 ( 98 -> ) [( 8.4299e+00, 4.1908e-01, 3.2109e-01, 8.4134e+00), p^2= 7.2164e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((10.25,0.548,0.3406,10.23)) * p_onshell ((10.27,0.5491,0.3412,10.25)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 98, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 203 ( 98 -> ) [( 1.8383e+00, 1.2980e-01, 1.9993e-02, 1.8336e+00), p^2=-8.9647e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 204 ( 98 -> ) [( 8.4082e+00, 4.1822e-01, 3.2059e-01, 8.3916e+00), p^2=-8.1463e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((10.25,0.548,0.3406,10.23)) * p_onshell ((10.27,0.5491,0.3412,10.25))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 98, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 203 ( 98 -> ) [( 1.8383e+00, 1.2980e-01, 1.9993e-02, 1.8336e+00), p^2=-8.9647e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 204 ( 98 -> ) [( 8.4082e+00, 4.1822e-01, 3.2059e-01, 8.3916e+00), p^2=-8.1463e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((10.25,0.548,0.3406,10.23)) * p_onshell ((10.27,0.5491,0.3412,10.25)) Momentum conserved: (-5.862e-14,-2.776e-15,-1.776e-15,-5.507e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 98, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 202 ( 97 -> 98) [( 1.0246e+01, 5.4803e-01, 3.4058e-01, 1.0225e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 203 ( 98 -> ) [( 1.8383e+00, 1.2980e-01, 1.9993e-02, 1.8336e+00), p^2=-8.9647e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 204 ( 98 -> ) [( 8.4082e+00, 4.1822e-01, 3.2059e-01, 8.3916e+00), p^2=-8.1463e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((10.25,0.548,0.3406,10.23)) * p_onshell ((10.27,0.5491,0.3412,10.25)) Momentum conserved: (-5.862e-14,-2.776e-15,-1.776e-15,-5.507e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 202") } 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 201) { Blob [128]( 99, Hadron Decay , 1 -> 0 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 1 pi 201 ( 97 -> 99) [( 4.3038e+00, 2.1116e-02,-1.0004e-02, 4.3016e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.293,0.02068,-0.01026,4.291)) * p_onshell ((4.304,0.02112,-0.01,4.302)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 99, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 201 ( 97 -> 99) [( 4.3038e+00, 2.1116e-02,-1.0004e-02, 4.3016e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 205 ( 99 -> ) [( 3.6000e+00, 6.7439e-02,-4.7683e-03, 3.5994e+00), p^2= 4.2284e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 206 ( 99 -> ) [( 7.0379e-01,-4.6323e-02,-5.2358e-03, 7.0224e-01), p^2=-9.4495e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.293,0.02068,-0.01026,4.291)) * p_onshell ((4.304,0.02112,-0.01,4.302)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 99, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 205 ( 99 -> ) [( 3.5906e+00, 6.7078e-02,-4.9767e-03, 3.5900e+00), p^2= 9.6923e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 206 ( 99 -> ) [( 7.0212e-01,-4.6397e-02,-5.2803e-03, 7.0057e-01), p^2= 6.5699e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.293,0.02068,-0.01026,4.291)) * p_onshell ((4.304,0.02112,-0.01,4.302))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 99, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 205 ( 99 -> ) [( 3.5906e+00, 6.7078e-02,-4.9767e-03, 3.5900e+00), p^2= 9.6923e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 206 ( 99 -> ) [( 7.0212e-01,-4.6397e-02,-5.2803e-03, 7.0057e-01), p^2= 6.5699e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.293,0.02068,-0.01026,4.291)) * p_onshell ((4.304,0.02112,-0.01,4.302)) Momentum conserved: (1.208e-13,5.898e-16,-2.88e-16,1.218e-13) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 99, Hadron Decay , 1 -> 2 @ (971.8,38.01,22.08,970.3), Sherpa Incoming particles : [D] 2 pi 201 ( 97 -> 99) [( 4.2927e+00, 2.0681e-02,-1.0257e-02, 4.2905e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 205 ( 99 -> ) [( 3.5906e+00, 6.7078e-02,-4.9767e-03, 3.5900e+00), p^2= 9.6923e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 206 ( 99 -> ) [( 7.0212e-01,-4.6397e-02,-5.2803e-03, 7.0057e-01), p^2= 6.5699e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.293,0.02068,-0.01026,4.291)) * p_onshell ((4.304,0.02112,-0.01,4.302)) Momentum conserved: (1.208e-13,5.898e-16,-2.88e-16,1.218e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 201") } Decay_Handler_Base::FillDecayTree:338("finished daughters of K(S) 200") } Decay_Handler_Base::FillDecayTree:338("finished daughters of K 126") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)++ 141 ( 10 -> 22) [( 9.8812e+01,-8.1640e-02,-5.2432e-01,-9.8803e+01), p^2= 1.5286e+00, m= 1.2364e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)++ 141) { Blob [128]( 22, Hadron Decay , 1 -> 0 @ (7.945e-11,-6.564e-14,-4.216e-13,-7.944e-11), Sherpa Incoming particles : [P] 1 Delta(1232)++ 141 ( 10 -> 22) [( 9.9068e+01,-8.1850e-02,-5.2568e-01,-9.9059e+01), p^2= 1.5178e+00, m= 1.2364e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((98.81,-0.08164,-0.5243,-98.8)) * p_onshell ((99.07,-0.08185,-0.5257,-99.06)) Decay_Handler_Base::FillOnshellDecay() { 2224,2212,211 Delta(1232)++ --> P+ pi+ 0.12 (0.12 ) GeV Blob [128]( 22, Hadron Decay , 1 -> 2 @ (7.945e-11,-6.564e-14,-4.216e-13,-7.944e-11), Sherpa Incoming particles : [P] 2 Delta(1232)++ 141 ( 10 -> 22) [( 9.9068e+01,-8.1850e-02,-5.2568e-01,-9.9059e+01), p^2= 1.5178e+00, m= 1.2364e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 207 ( 22 -> ) [( 8.5493e+01,-2.1464e-01,-3.0770e-01,-8.5487e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 208 ( 22 -> ) [( 1.3575e+01, 1.3279e-01,-2.1798e-01,-1.3572e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((98.81,-0.08164,-0.5243,-98.8)) * p_onshell ((99.07,-0.08185,-0.5257,-99.06)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.236 > m[P+]=0.9383") Decay_Handler_Base::SetMasses:97("0.2981 > m[pi+]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 22, Hadron Decay , 1 -> 2 @ (7.945e-11,-6.564e-14,-4.216e-13,-7.944e-11), Sherpa Incoming particles : [D] 2 Delta(1232)++ 141 ( 10 -> 22) [( 9.8812e+01,-8.1640e-02,-5.2432e-01,-9.8803e+01), p^2= 1.5286e+00, m= 1.2364e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 207 ( 22 -> ) [( 8.5161e+01,-2.1700e-01,-3.0327e-01,-8.5155e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 208 ( 22 -> ) [( 1.3651e+01, 1.3536e-01,-2.2105e-01,-1.3648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((98.81,-0.08164,-0.5243,-98.8)) * p_onshell ((99.07,-0.08185,-0.5257,-99.06))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)++ -> P+ pi+) { Blob [128]( 22, Hadron Decay , 1 -> 2 @ (7.945e-11,-6.564e-14,-4.216e-13,-7.944e-11), Sherpa Incoming particles : [D] 2 Delta(1232)++ 141 ( 10 -> 22) [( 9.8812e+01,-8.1640e-02,-5.2432e-01,-9.8803e+01), p^2= 1.5286e+00, m= 1.2364e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 207 ( 22 -> ) [( 8.5161e+01,-2.1700e-01,-3.0327e-01,-8.5155e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 208 ( 22 -> ) [( 1.3651e+01, 1.3536e-01,-2.2105e-01,-1.3648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((98.81,-0.08164,-0.5243,-98.8)) * p_onshell ((99.07,-0.08185,-0.5257,-99.06)) Momentum conserved: (4.104e-11,-3.392e-14,-2.179e-13,-4.109e-11) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,2,0) } Dipole_FI::AddRadiation( Delta(1232)++ -> P+ pi+ ) { Avarage_Photon_Number::Avarage_Photon_Number(3) { back-to-back pair discovered: 2.04 <-> 2.04 back-to-back pair discovered: 2.987 <-> 2.987 back-to-back pair discovered: 2.78 <-> 2.78 all dipoles: [(0,1): 0.000985]: [Delta(1232)++,P+] [(0,2): 0.0246]: [Delta(1232)++,pi+] [(1,2): -0.01681]: [P+,pi+] -> 0.008766 } nbar: 0.008766 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 22, Hadron Decay , 1 -> 2 @ (7.945e-11,-6.564e-14,-4.216e-13,-7.944e-11), Sherpa Incoming particles : [D] 2 Delta(1232)++ 141 ( 10 -> 22) [( 9.8812e+01,-8.1640e-02,-5.2432e-01,-9.8803e+01), p^2= 1.5286e+00, m= 1.2364e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 207 ( 22 -> ) [( 8.5161e+01,-2.1700e-01,-3.0327e-01,-8.5155e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 208 ( 22 -> ) [( 1.3651e+01, 1.3536e-01,-2.2105e-01,-1.3648e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ad9420) * p_actual ((98.81,-0.08164,-0.5243,-98.8)) * p_onshell ((99.07,-0.08185,-0.5257,-99.06)) Momentum conserved: (4.104e-11,-3.392e-14,-2.179e-13,-4.109e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)++ 141") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+ 64 ( 10 -> ) [( 1.1938e+00, 4.9609e-01, 3.2491e-01, 1.0266e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 157 ( 10 -> ) [( 3.2246e+01, 1.1516e+00,-6.8325e-01,-3.2218e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K 95 ( 10 -> 23) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K 95) { Blob [128]( 23, Hadron Decay , 1 -> 0 @ (0,0,0,0), Sherpa Incoming particles : [P] 1 K 95 ( 10 -> 23) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((7.744,-0.1291,-0.3293,-7.719)) * p_onshell ((7.764,-0.1294,-0.3301,-7.739)) Decay_Handler_Base::FillOnshellDecay() { 311,130 K --> K(L) 5e-17 (5e-17 ) GeV Blob [128]( 23, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [P] 2 K 95 ( 10 -> 23) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 209 ( 23 -> ) [( 7.7635e+00,-1.2942e-01,-3.3014e-01,-7.7394e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((7.744,-0.1291,-0.3293,-7.719)) * p_onshell ((7.764,-0.1294,-0.3301,-7.739)) } Decay_Handler_Base::SetMasses(1) { } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 23, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 95 ( 10 -> 23) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 209 ( 23 -> ) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((7.744,-0.1291,-0.3293,-7.719)) * p_onshell ((7.764,-0.1294,-0.3301,-7.739))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K -> K(L)) { Blob [128]( 23, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 95 ( 10 -> 23) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 209 ( 23 -> ) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((7.744,-0.1291,-0.3293,-7.719)) * p_onshell ((7.764,-0.1294,-0.3301,-7.739)) Momentum conserved: (0,0,0,0) Define_Dipole::Define_Dipole() { Undefined(0,1,0,1) } Blob [0]( 23, Hadron Decay , 1 -> 1 @ (0,0,0,0), Sherpa Incoming particles : [D] 2 K 95 ( 10 -> 23) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 209 ( 23 -> ) [( 7.7435e+00,-1.2909e-01,-3.2929e-01,-7.7194e+00), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((7.744,-0.1291,-0.3293,-7.719)) * p_onshell ((7.764,-0.1294,-0.3301,-7.739)) Momentum conserved: (0,0,0,0) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K(L) Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K 95") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+ 130 ( 10 -> ) [( 9.0149e-01,-7.2538e-01,-4.2700e-01, 2.9102e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 nb 74 ( 10 -> ) [( 3.6908e+00,-2.8036e+00,-1.8406e+00, 1.2211e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K(1)(1400) 60 ( 10 -> 24) [( 2.3460e+00, 1.5073e+00,-9.3842e-01,-6.1309e-01), p^2= 1.9753e+00, m= 1.4055e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K(1)(1400) 60) { Blob [128]( 24, Hadron Decay , 1 -> 0 @ (8.019e-13,5.162e-13,-3.213e-13,-2.1e-13), Sherpa Incoming particles : [P] 1 K(1)(1400) 60 ( 10 -> 24) [( 2.3479e+00, 1.5113e+00,-9.4079e-01,-6.1493e-01), p^2= 1.9656e+00, m= 1.4055e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bce800) * p_actual ((2.346,1.507,-0.9384,-0.6131)) * p_onshell ((2.348,1.511,-0.9408,-0.6149)) Decay_Handler_Base::FillOnshellDecay() { 20313,323,-211 K(1)(1400) --> K*(892)+ pi+b 0.1091 (0.000696 ) GeV Blob [128]( 24, Hadron Decay , 1 -> 2 @ (8.019e-13,5.162e-13,-3.213e-13,-2.1e-13), Sherpa Incoming particles : [P] 2 K(1)(1400) 60 ( 10 -> 24) [( 2.3479e+00, 1.5113e+00,-9.4079e-01,-6.1493e-01), p^2= 1.9656e+00, m= 1.4055e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+ 210 ( 24 -> ) [( 1.8359e+00, 1.3010e+00,-5.2634e-01,-7.7837e-01), p^2= 7.9506e-01, m= 8.9166e-01] ( 0, 0) [D] 1 pi+b 211 ( 24 -> ) [( 5.1205e-01, 2.1030e-01,-4.1445e-01, 1.6344e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bce800) * p_actual ((2.346,1.507,-0.9384,-0.6131)) * p_onshell ((2.348,1.511,-0.9408,-0.6149)) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)+) { Decay_Table::Select(K*(892)+) { 134:*selected=323,321,111 K*(892)+ --> K+ pi 0.01692 (0.01692 ) GeV } 149:inpart->Momentum()=(1.836,1.301,-0.5263,-0.7784) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.405 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.6287 < m[K*(892)+] < 1.266) { 187:mass=0.9003 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.001 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 24, Hadron Decay , 1 -> 2 @ (8.019e-13,5.162e-13,-3.213e-13,-2.1e-13), Sherpa Incoming particles : [D] 2 K(1)(1400) 60 ( 10 -> 24) [( 2.3460e+00, 1.5073e+00,-9.3842e-01,-6.1309e-01), p^2= 1.9753e+00, m= 1.4055e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) [D] 1 pi+b 211 ( 24 -> ) [( 5.0747e-01, 2.0759e-01,-4.1051e-01, 1.6259e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bce800) * p_actual ((2.346,1.507,-0.9384,-0.6131)) * p_onshell ((2.348,1.511,-0.9408,-0.6149))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K(1)(1400) -> K*(892)+ pi+b) { Blob [128]( 24, Hadron Decay , 1 -> 2 @ (8.019e-13,5.162e-13,-3.213e-13,-2.1e-13), Sherpa Incoming particles : [D] 2 K(1)(1400) 60 ( 10 -> 24) [( 2.3460e+00, 1.5073e+00,-9.3842e-01,-6.1309e-01), p^2= 1.9753e+00, m= 1.4055e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) [D] 1 pi+b 211 ( 24 -> ) [( 5.0747e-01, 2.0759e-01,-4.1051e-01, 1.6259e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bce800) * p_actual ((2.346,1.507,-0.9384,-0.6131)) * p_onshell ((2.348,1.511,-0.9408,-0.6149)) Momentum conserved: (1.11e-15,8.049e-16,-2.22e-16,-1.943e-16) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( K(1)(1400) -> K*(892)+ pi+b ) { nbar: 0.03753 n: 0 -> accept } Blob [0]( 24, Hadron Decay , 1 -> 2 @ (8.019e-13,5.162e-13,-3.213e-13,-2.1e-13), Sherpa Incoming particles : [D] 2 K(1)(1400) 60 ( 10 -> 24) [( 2.3460e+00, 1.5073e+00,-9.3842e-01,-6.1309e-01), p^2= 1.9753e+00, m= 1.4055e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) [D] 1 pi+b 211 ( 24 -> ) [( 5.0747e-01, 2.0759e-01,-4.1051e-01, 1.6259e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bce800) * p_actual ((2.346,1.507,-0.9384,-0.6131)) * p_onshell ((2.348,1.511,-0.9408,-0.6149)) Momentum conserved: (1.11e-15,8.049e-16,-2.22e-16,-1.943e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K*(892)+ Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K*(892)+ 210) { Blob [128]( 100, Hadron Decay , 1 -> 0 @ (2.309e-12,1.584e-12,-7.534e-13,-8.491e-13), Sherpa Incoming particles : [D] 1 K*(892)+ 210 ( 24 -> 100) [( 1.8359e+00, 1.3010e+00,-5.2634e-01,-7.7837e-01), p^2= 7.9506e-01, m= 9.0034e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((1.839,1.3,-0.5279,-0.7757)) * p_onshell ((1.836,1.301,-0.5263,-0.7784)) Decay_Handler_Base::FillOnshellDecay() { 323,321,111 K*(892)+ --> K+ pi 0.01692 (0.01692 ) GeV Blob [128]( 100, Hadron Decay , 1 -> 2 @ (2.309e-12,1.584e-12,-7.534e-13,-8.491e-13), Sherpa Incoming particles : [D] 2 K*(892)+ 210 ( 24 -> 100) [( 1.8359e+00, 1.3010e+00,-5.2634e-01,-7.7837e-01), p^2= 7.9506e-01, m= 9.0034e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 212 ( 100 -> ) [( 1.6562e+00, 1.2240e+00,-6.1585e-01,-7.8871e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 213 ( 100 -> ) [( 1.7963e-01, 7.6996e-02, 8.9516e-02, 1.0347e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((1.839,1.3,-0.5279,-0.7757)) * p_onshell ((1.836,1.301,-0.5263,-0.7784)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.1796,0.077,0.08952,0.01035) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.9003 > m[K+]=0.4937") Decay_Channel::GenerateMass(0 < m[pi] < 0.4067) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.002 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 100, Hadron Decay , 1 -> 2 @ (2.309e-12,1.584e-12,-7.534e-13,-8.491e-13), Sherpa Incoming particles : [D] 2 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 212 ( 100 -> ) [( 1.6574e+00, 1.2234e+00,-6.2063e-01,-7.8834e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((1.839,1.3,-0.5279,-0.7757)) * p_onshell ((1.836,1.301,-0.5263,-0.7784))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K*(892)+ -> K+ pi) { Blob [128]( 100, Hadron Decay , 1 -> 2 @ (2.309e-12,1.584e-12,-7.534e-13,-8.491e-13), Sherpa Incoming particles : [D] 2 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 212 ( 100 -> ) [( 1.6574e+00, 1.2234e+00,-6.2063e-01,-7.8834e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((1.839,1.3,-0.5279,-0.7757)) * p_onshell ((1.836,1.301,-0.5263,-0.7784)) Momentum conserved: (-2.776e-17,8.327e-17,-9.714e-17,-1.388e-16) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( K*(892)+ -> K+ pi ) { nbar: 0.002862 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 100, Hadron Decay , 1 -> 2 @ (2.309e-12,1.584e-12,-7.534e-13,-8.491e-13), Sherpa Incoming particles : [D] 2 K*(892)+ 210 ( 24 -> 100) [( 1.8385e+00, 1.2997e+00,-5.2791e-01,-7.7568e-01), p^2= 8.1061e-01, m= 9.0034e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 212 ( 100 -> ) [( 1.6574e+00, 1.2234e+00,-6.2063e-01,-7.8834e-01), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((1.839,1.3,-0.5279,-0.7757)) * p_onshell ((1.836,1.301,-0.5263,-0.7784)) Momentum conserved: (-2.776e-17,8.327e-17,-9.714e-17,-1.388e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 213) { Blob [128]( 101, Hadron Decay , 1 -> 0 @ (4.796e-05,2.056e-05,2.39e-05,2.763e-06), Sherpa Incoming particles : [D] 1 pi 213 ( 100 -> 101) [( 1.7963e-01, 7.6996e-02, 8.9516e-02, 1.0347e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.1811,0.07632,0.09272,0.01266)) * p_onshell ((0.1796,0.077,0.08952,0.01035)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 101, Hadron Decay , 1 -> 2 @ (4.796e-05,2.056e-05,2.39e-05,2.763e-06), Sherpa Incoming particles : [D] 2 pi 213 ( 100 -> 101) [( 1.7963e-01, 7.6996e-02, 8.9516e-02, 1.0347e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 214 ( 101 -> ) [( 5.4305e-02,-5.6406e-03, 1.7952e-02,-5.0941e-02), p^2=-1.8431e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 215 ( 101 -> ) [( 1.2532e-01, 8.2637e-02, 7.1563e-02, 6.1288e-02), p^2= 8.6736e-19, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.1811,0.07632,0.09272,0.01266)) * p_onshell ((0.1796,0.077,0.08952,0.01035)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 101, Hadron Decay , 1 -> 2 @ (4.796e-05,2.056e-05,2.39e-05,2.763e-06), Sherpa Incoming particles : [D] 2 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 214 ( 101 -> ) [( 5.3885e-02,-6.1436e-03, 1.8903e-02,-5.0085e-02), p^2= 1.0842e-19, m= 0.0000e+00] ( 0, 0) [D] 1 P 215 ( 101 -> ) [( 1.2722e-01, 8.2459e-02, 7.3820e-02, 6.2745e-02), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.1811,0.07632,0.09272,0.01266)) * p_onshell ((0.1796,0.077,0.08952,0.01035))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 101, Hadron Decay , 1 -> 2 @ (4.796e-05,2.056e-05,2.39e-05,2.763e-06), Sherpa Incoming particles : [D] 2 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 214 ( 101 -> ) [( 5.3885e-02,-6.1436e-03, 1.8903e-02,-5.0085e-02), p^2= 1.0842e-19, m= 0.0000e+00] ( 0, 0) [D] 1 P 215 ( 101 -> ) [( 1.2722e-01, 8.2459e-02, 7.3820e-02, 6.2745e-02), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.1811,0.07632,0.09272,0.01266)) * p_onshell ((0.1796,0.077,0.08952,0.01035)) Momentum conserved: (0,0,1.388e-17,1.388e-17) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 101, Hadron Decay , 1 -> 2 @ (4.796e-05,2.056e-05,2.39e-05,2.763e-06), Sherpa Incoming particles : [D] 2 pi 213 ( 100 -> 101) [( 1.8111e-01, 7.6316e-02, 9.2723e-02, 1.2660e-02), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 214 ( 101 -> ) [( 5.3885e-02,-6.1436e-03, 1.8903e-02,-5.0085e-02), p^2= 1.0842e-19, m= 0.0000e+00] ( 0, 0) [D] 1 P 215 ( 101 -> ) [( 1.2722e-01, 8.2459e-02, 7.3820e-02, 6.2745e-02), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.1811,0.07632,0.09272,0.01266)) * p_onshell ((0.1796,0.077,0.08952,0.01035)) Momentum conserved: (0,0,1.388e-17,1.388e-17) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 213") } 303:daughters[i]->Flav()=K+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K*(892)+ 210") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K(1)(1400) 60") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi 87 ( 10 -> 25) [( 5.1254e-01,-3.4903e-01, 1.5100e-01, 3.1601e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(pi 87) { Blob [128]( 25, Hadron Decay , 1 -> 0 @ (1.921e-05,-1.308e-05,5.661e-06,1.185e-05), Sherpa Incoming particles : [P] 1 pi 87 ( 10 -> 25) [( 5.1377e-01,-3.4993e-01, 1.5140e-01, 3.1682e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5125,-0.349,0.151,0.316)) * p_onshell ((0.5138,-0.3499,0.1514,0.3168)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 25, Hadron Decay , 1 -> 2 @ (1.921e-05,-1.308e-05,5.661e-06,1.185e-05), Sherpa Incoming particles : [P] 2 pi 87 ( 10 -> 25) [( 5.1377e-01,-3.4993e-01, 1.5140e-01, 3.1682e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 216 ( 25 -> ) [( 2.6320e-01,-2.1548e-01, 1.0247e-01, 1.1112e-01), p^2=-3.4694e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 217 ( 25 -> ) [( 2.5057e-01,-1.3445e-01, 4.8929e-02, 2.0570e-01), p^2=-1.0408e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5125,-0.349,0.151,0.316)) * p_onshell ((0.5138,-0.3499,0.1514,0.3168)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 25, Hadron Decay , 1 -> 2 @ (1.921e-05,-1.308e-05,5.661e-06,1.185e-05), Sherpa Incoming particles : [D] 2 pi 87 ( 10 -> 25) [( 5.1254e-01,-3.4903e-01, 1.5100e-01, 3.1601e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 216 ( 25 -> ) [( 2.6257e-01,-2.1501e-01, 1.0226e-01, 1.1070e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [D] 1 P 217 ( 25 -> ) [( 2.4997e-01,-1.3401e-01, 4.8738e-02, 2.0531e-01), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5125,-0.349,0.151,0.316)) * p_onshell ((0.5138,-0.3499,0.1514,0.3168))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 25, Hadron Decay , 1 -> 2 @ (1.921e-05,-1.308e-05,5.661e-06,1.185e-05), Sherpa Incoming particles : [D] 2 pi 87 ( 10 -> 25) [( 5.1254e-01,-3.4903e-01, 1.5100e-01, 3.1601e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 216 ( 25 -> ) [( 2.6257e-01,-2.1501e-01, 1.0226e-01, 1.1070e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [D] 1 P 217 ( 25 -> ) [( 2.4997e-01,-1.3401e-01, 4.8738e-02, 2.0531e-01), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5125,-0.349,0.151,0.316)) * p_onshell ((0.5138,-0.3499,0.1514,0.3168)) Momentum conserved: (-1.804e-15,1.249e-15,-5.551e-16,-1.166e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 25, Hadron Decay , 1 -> 2 @ (1.921e-05,-1.308e-05,5.661e-06,1.185e-05), Sherpa Incoming particles : [D] 2 pi 87 ( 10 -> 25) [( 5.1254e-01,-3.4903e-01, 1.5100e-01, 3.1601e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 216 ( 25 -> ) [( 2.6257e-01,-2.1501e-01, 1.0226e-01, 1.1070e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) [D] 1 P 217 ( 25 -> ) [( 2.4997e-01,-1.3401e-01, 4.8738e-02, 2.0531e-01), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5125,-0.349,0.151,0.316)) * p_onshell ((0.5138,-0.3499,0.1514,0.3168)) Momentum conserved: (-1.804e-15,1.249e-15,-5.551e-16,-1.166e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 87") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 f(2)(1270) 56 ( 10 -> 26) [( 4.4387e+00, 2.0733e+00,-7.2226e-01,-1.9421e+00), p^2= 1.1110e+01, m= 3.3331e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(f(2)(1270) 56) { Blob [128]( 26, Hadron Decay , 1 -> 0 @ (8.684e-13,5.609e-13,-1.881e-13,-5.375e-13), Sherpa Incoming particles : [P] 1 f(2)(1270) 56 ( 10 -> 26) [( 3.2609e+00, 2.1061e+00,-7.0616e-01,-2.0184e+00), p^2= 1.6256e+00, m= 3.3331e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bb3140) * p_actual ((4.439,2.073,-0.7223,-1.942)) * p_onshell ((3.261,2.106,-0.7062,-2.018)) Decay_Handler_Base::FillOnshellDecay() { 225,111,111 f(2)(1270) --> pi pi 0.05242 (0.001484 ) GeV Blob [128]( 26, Hadron Decay , 1 -> 2 @ (8.684e-13,5.609e-13,-1.881e-13,-5.375e-13), Sherpa Incoming particles : [P] 2 f(2)(1270) 56 ( 10 -> 26) [( 3.2609e+00, 2.1061e+00,-7.0616e-01,-2.0184e+00), p^2= 1.6256e+00, m= 3.3331e+00] ( 0, 0) Outgoing particles : [D] 1 pi 218 ( 26 -> ) [( 2.7595e+00, 1.9262e+00,-1.0127e+00,-1.6914e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 219 ( 26 -> ) [( 5.0141e-01, 1.7984e-01, 3.0651e-01,-3.2696e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3140) * p_actual ((4.439,2.073,-0.7223,-1.942)) * p_onshell ((3.261,2.106,-0.7062,-2.018)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(2.76,1.926,-1.013,-1.691) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.5014,0.1798,0.3065,-0.327) } Decay_Handler_Base::SetMasses(2) { Decay_Channel::GenerateMass(0 < m[pi] < 3.333) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 3.198) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.375 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 26, Hadron Decay , 1 -> 2 @ (8.684e-13,5.609e-13,-1.881e-13,-5.375e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 56 ( 10 -> 26) [( 4.4387e+00, 2.0733e+00,-7.2226e-01,-1.9421e+00), p^2= 1.1110e+01, m= 3.3331e+00] ( 0, 0) Outgoing particles : [D] 1 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3140) * p_actual ((4.439,2.073,-0.7223,-1.942)) * p_onshell ((3.261,2.106,-0.7062,-2.018))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=f(2)(1270) -> pi pi) { Blob [128]( 26, Hadron Decay , 1 -> 2 @ (8.684e-13,5.609e-13,-1.881e-13,-5.375e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 56 ( 10 -> 26) [( 4.4387e+00, 2.0733e+00,-7.2226e-01,-1.9421e+00), p^2= 1.1110e+01, m= 3.3331e+00] ( 0, 0) Outgoing particles : [D] 1 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3140) * p_actual ((4.439,2.073,-0.7223,-1.942)) * p_onshell ((3.261,2.106,-0.7062,-2.018)) Momentum conserved: (6.661e-16,2.22e-16,-2.22e-16,-2.22e-16) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 26, Hadron Decay , 1 -> 2 @ (8.684e-13,5.609e-13,-1.881e-13,-5.375e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 56 ( 10 -> 26) [( 4.4387e+00, 2.0733e+00,-7.2226e-01,-1.9421e+00), p^2= 1.1110e+01, m= 3.3331e+00] ( 0, 0) Outgoing particles : [D] 1 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3140) * p_actual ((4.439,2.073,-0.7223,-1.942)) * p_onshell ((3.261,2.106,-0.7062,-2.018)) Momentum conserved: (6.661e-16,2.22e-16,-2.22e-16,-2.22e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 218) { Blob [128]( 102, Hadron Decay , 1 -> 0 @ (0.0006914,0.0004826,-0.0002537,-0.0004238), Sherpa Incoming particles : [D] 1 pi 218 ( 26 -> 102) [( 2.7595e+00, 1.9262e+00,-1.0127e+00,-1.6914e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.019,1.918,-1.953,-1.266)) * p_onshell ((2.76,1.926,-1.013,-1.691)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 102, Hadron Decay , 1 -> 2 @ (0.0006914,0.0004826,-0.0002537,-0.0004238), Sherpa Incoming particles : [D] 2 pi 218 ( 26 -> 102) [( 2.7595e+00, 1.9262e+00,-1.0127e+00,-1.6914e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 220 ( 102 -> ) [( 1.8690e+00, 1.2926e+00,-7.4463e-01,-1.1260e+00), p^2= 1.3323e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 221 ( 102 -> ) [( 8.9056e-01, 6.3367e-01,-2.6804e-01,-5.6543e-01), p^2=-9.7145e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.019,1.918,-1.953,-1.266)) * p_onshell ((2.76,1.926,-1.013,-1.691)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 102, Hadron Decay , 1 -> 2 @ (0.0006914,0.0004826,-0.0002537,-0.0004238), Sherpa Incoming particles : [D] 2 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 220 ( 102 -> ) [( 2.4841e+00, 1.5557e+00,-1.6472e+00,-1.0186e+00), p^2=-1.3323e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 221 ( 102 -> ) [( 5.3519e-01, 3.6263e-01,-3.0605e-01,-2.4751e-01), p^2= 4.1633e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.019,1.918,-1.953,-1.266)) * p_onshell ((2.76,1.926,-1.013,-1.691))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 102, Hadron Decay , 1 -> 2 @ (0.0006914,0.0004826,-0.0002537,-0.0004238), Sherpa Incoming particles : [D] 2 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 220 ( 102 -> ) [( 2.4841e+00, 1.5557e+00,-1.6472e+00,-1.0186e+00), p^2=-1.3323e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 221 ( 102 -> ) [( 5.3519e-01, 3.6263e-01,-3.0605e-01,-2.4751e-01), p^2= 4.1633e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.019,1.918,-1.953,-1.266)) * p_onshell ((2.76,1.926,-1.013,-1.691)) Momentum conserved: (-1.11e-14,-6.384e-15,8.66e-15,3.109e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 102, Hadron Decay , 1 -> 2 @ (0.0006914,0.0004826,-0.0002537,-0.0004238), Sherpa Incoming particles : [D] 2 pi 218 ( 26 -> 102) [( 3.0193e+00, 1.9183e+00,-1.9532e+00,-1.2661e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 220 ( 102 -> ) [( 2.4841e+00, 1.5557e+00,-1.6472e+00,-1.0186e+00), p^2=-1.3323e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 221 ( 102 -> ) [( 5.3519e-01, 3.6263e-01,-3.0605e-01,-2.4751e-01), p^2= 4.1633e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.019,1.918,-1.953,-1.266)) * p_onshell ((2.76,1.926,-1.013,-1.691)) Momentum conserved: (-1.11e-14,-6.384e-15,8.66e-15,3.109e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 218") } 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 219) { Blob [128]( 103, Hadron Decay , 1 -> 0 @ (0.0001018,3.653e-05,6.226e-05,-6.641e-05), Sherpa Incoming particles : [D] 1 pi 219 ( 26 -> 103) [( 5.0141e-01, 1.7984e-01, 3.0651e-01,-3.2696e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.419,0.155,1.231,-0.676)) * p_onshell ((0.5014,0.1798,0.3065,-0.327)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 103, Hadron Decay , 1 -> 2 @ (0.0001018,3.653e-05,6.226e-05,-6.641e-05), Sherpa Incoming particles : [D] 2 pi 219 ( 26 -> 103) [( 5.0141e-01, 1.7984e-01, 3.0651e-01,-3.2696e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 222 ( 103 -> ) [( 1.6908e-01, 9.3983e-03, 1.3870e-01,-9.6233e-02), p^2=-6.9389e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 223 ( 103 -> ) [( 3.3233e-01, 1.7045e-01, 1.6781e-01,-2.3072e-01), p^2=-1.0408e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.419,0.155,1.231,-0.676)) * p_onshell ((0.5014,0.1798,0.3065,-0.327)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 103, Hadron Decay , 1 -> 2 @ (0.0001018,3.653e-05,6.226e-05,-6.641e-05), Sherpa Incoming particles : [D] 2 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 222 ( 103 -> ) [( 7.4278e-01, 2.3324e-02, 6.6648e-01,-3.2708e-01), p^2= 1.6653e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 223 ( 103 -> ) [( 6.7654e-01, 1.3163e-01, 5.6450e-01,-3.4889e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.419,0.155,1.231,-0.676)) * p_onshell ((0.5014,0.1798,0.3065,-0.327))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 103, Hadron Decay , 1 -> 2 @ (0.0001018,3.653e-05,6.226e-05,-6.641e-05), Sherpa Incoming particles : [D] 2 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 222 ( 103 -> ) [( 7.4278e-01, 2.3324e-02, 6.6648e-01,-3.2708e-01), p^2= 1.6653e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 223 ( 103 -> ) [( 6.7654e-01, 1.3163e-01, 5.6450e-01,-3.4889e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.419,0.155,1.231,-0.676)) * p_onshell ((0.5014,0.1798,0.3065,-0.327)) Momentum conserved: (-2.576e-14,-2.887e-15,-2.232e-14,1.232e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 103, Hadron Decay , 1 -> 2 @ (0.0001018,3.653e-05,6.226e-05,-6.641e-05), Sherpa Incoming particles : [D] 2 pi 219 ( 26 -> 103) [( 1.4193e+00, 1.5495e-01, 1.2310e+00,-6.7596e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 222 ( 103 -> ) [( 7.4278e-01, 2.3324e-02, 6.6648e-01,-3.2708e-01), p^2= 1.6653e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 223 ( 103 -> ) [( 6.7654e-01, 1.3163e-01, 5.6450e-01,-3.4889e-01), p^2= 0.0000e+00, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.419,0.155,1.231,-0.676)) * p_onshell ((0.5014,0.1798,0.3065,-0.327)) Momentum conserved: (-2.576e-14,-2.887e-15,-2.232e-14,1.232e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 219") } Decay_Handler_Base::FillDecayTree:338("finished daughters of f(2)(1270) 56") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 D(s)*+b 127 ( 10 -> 27) [( 9.8357e+01, 2.6601e+00, 2.2295e-01, 9.8298e+01), p^2= 4.4761e+00, m= 2.1157e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(D(s)*+b 127) { Blob [128]( 27, Hadron Decay , 1 -> 0 @ (1.294e-08,3.5e-10,2.934e-11,1.293e-08), Sherpa Incoming particles : [P] 1 D(s)*+b 127 ( 10 -> 27) [( 9.8612e+01, 2.6670e+00, 2.2353e-01, 9.8553e+01), p^2= 4.4622e+00, m= 2.1157e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bad2e0) * p_actual ((98.36,2.66,0.2229,98.3)) * p_onshell ((98.61,2.667,0.2235,98.55)) Decay_Handler_Base::FillOnshellDecay() { 433,431,22 D(s)*+ --> D(s)+ P 0.000942 (2.5e-05 ) GeV Blob [128]( 27, Hadron Decay , 1 -> 2 @ (1.294e-08,3.5e-10,2.934e-11,1.293e-08), Sherpa Incoming particles : [P] 2 D(s)*+b 127 ( 10 -> 27) [( 9.8612e+01, 2.6670e+00, 2.2353e-01, 9.8553e+01), p^2= 4.4622e+00, m= 2.1157e+00] ( 0, 0) Outgoing particles : [D] 1 D(s)+b 224 ( 27 -> ) [( 9.6340e+01, 2.5002e+00, 2.2459e-01, 9.6287e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) [D] 1 P 225 ( 27 -> ) [( 2.2715e+00, 1.6678e-01,-1.0561e-03, 2.2654e+00), p^2=-2.2981e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4bad2e0) * p_actual ((98.36,2.66,0.2229,98.3)) * p_onshell ((98.61,2.667,0.2235,98.55)) } Hadron_Decay_Handler::CreateDecayBlob(D(s)+b) { Decay_Table::Select(D(s)+) { 134:*selected=431,323,-311 D(s)+ --> K*(892)+ Kb 7.473e-14 (7.473e-14 ) GeV } 149:inpart->Momentum()=(96.34,2.5,0.2246,96.29) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("2.116 > m[P]=0") Decay_Channel::GenerateMass(1.389 < m[D(s)+] < 2.116) { 187:mass=1.968 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 27, Hadron Decay , 1 -> 2 @ (1.294e-08,3.5e-10,2.934e-11,1.293e-08), Sherpa Incoming particles : [D] 2 D(s)*+b 127 ( 10 -> 27) [( 9.8357e+01, 2.6601e+00, 2.2295e-01, 9.8298e+01), p^2= 4.4761e+00, m= 2.1157e+00] ( 0, 0) Outgoing particles : [D] 1 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) [D] 1 P 225 ( 27 -> ) [( 2.3157e+00, 1.7036e-01,-1.0965e-03, 2.3094e+00), p^2= 2.4980e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4bad2e0) * p_actual ((98.36,2.66,0.2229,98.3)) * p_onshell ((98.61,2.667,0.2235,98.55))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=D(s)*+b -> D(s)+b P) { Blob [128]( 27, Hadron Decay , 1 -> 2 @ (1.294e-08,3.5e-10,2.934e-11,1.293e-08), Sherpa Incoming particles : [D] 2 D(s)*+b 127 ( 10 -> 27) [( 9.8357e+01, 2.6601e+00, 2.2295e-01, 9.8298e+01), p^2= 4.4761e+00, m= 2.1157e+00] ( 0, 0) Outgoing particles : [D] 1 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) [D] 1 P 225 ( 27 -> ) [( 2.3157e+00, 1.7036e-01,-1.0965e-03, 2.3094e+00), p^2= 2.4980e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4bad2e0) * p_actual ((98.36,2.66,0.2229,98.3)) * p_onshell ((98.61,2.667,0.2235,98.55)) Momentum conserved: (2.154e-11,5.826e-13,4.888e-14,2.153e-11) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( D(s)*+b -> D(s)+b P ) { nbar: 4.027e-05 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 27, Hadron Decay , 1 -> 2 @ (1.294e-08,3.5e-10,2.934e-11,1.293e-08), Sherpa Incoming particles : [D] 2 D(s)*+b 127 ( 10 -> 27) [( 9.8357e+01, 2.6601e+00, 2.2295e-01, 9.8298e+01), p^2= 4.4761e+00, m= 2.1157e+00] ( 0, 0) Outgoing particles : [D] 1 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) [D] 1 P 225 ( 27 -> ) [( 2.3157e+00, 1.7036e-01,-1.0965e-03, 2.3094e+00), p^2= 2.4980e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4bad2e0) * p_actual ((98.36,2.66,0.2229,98.3)) * p_onshell ((98.61,2.667,0.2235,98.55)) Momentum conserved: (2.154e-11,5.826e-13,4.888e-14,2.153e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=D(s)+b Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(D(s)+b 224) { Blob [128]( 104, Hadron Decay , 1 -> 0 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 1 D(s)+b 224 ( 27 -> 104) [( 9.6340e+01, 2.5002e+00, 2.2459e-01, 9.6287e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b565a0) * p_actual ((96.04,2.49,0.224,95.99)) * p_onshell ((96.34,2.5,0.2246,96.29)) Decay_Handler_Base::FillOnshellDecay() { 431,323,-311 D(s)+ --> K*(892)+ Kb 7.473e-14 (7.473e-14 ) GeV Blob [128]( 104, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 D(s)+b 224 ( 27 -> 104) [( 9.6340e+01, 2.5002e+00, 2.2459e-01, 9.6287e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+b 226 ( 104 -> ) [( 8.0773e+01, 2.3620e+00,-1.5542e-01, 8.0734e+01), p^2= 7.9506e-01, m= 8.9166e-01] ( 0, 0) [D] 1 K 227 ( 104 -> ) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b565a0) * p_actual ((96.04,2.49,0.224,95.99)) * p_onshell ((96.34,2.5,0.2246,96.29)) } Hadron_Decay_Handler::CreateDecayBlob(K) { Decay_Table::Select(K) { 134:*selected=311,310 K --> K(S) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(15.57,0.1381,0.38,15.55) } Hadron_Decay_Handler::CreateDecayBlob(K*(892)+b) { Decay_Table::Select(K*(892)+) { 134:*selected=323,311,211 K*(892)+ --> K pi+ 0.03383 (0.03383 ) GeV } 149:inpart->Momentum()=(80.77,2.362,-0.1554,80.73) } Decay_Handler_Base::SetMasses(2) { Decay_Channel::GenerateMass(0.4977 < m[K] < 1.968) { 187:mass=0.4977 } Decay_Channel::GenerateMass(0.6372 < m[K*(892)+] < 1.471) { 187:mass=1.034 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 104, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) [D] 1 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b565a0) * p_actual ((96.04,2.49,0.224,95.99)) * p_onshell ((96.34,2.5,0.2246,96.29))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=D(s)+b -> K*(892)+b K) { Blob [128]( 104, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) [D] 1 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b565a0) * p_actual ((96.04,2.49,0.224,95.99)) * p_onshell ((96.34,2.5,0.2246,96.29)) Momentum conserved: (3.137e-11,8.133e-13,7.316e-14,3.137e-11) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( D(s)+b -> K*(892)+b K ) { nbar: 0.002914 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 104, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 D(s)+b 224 ( 27 -> 104) [( 9.6041e+01, 2.4897e+00, 2.2404e-01, 9.5989e+01), p^2= 3.8750e+00, m= 1.9685e+00] ( 0, 0) Outgoing particles : [D] 1 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) [D] 1 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b565a0) * p_actual ((96.04,2.49,0.224,95.99)) * p_onshell ((96.34,2.5,0.2246,96.29)) Momentum conserved: (3.137e-11,8.133e-13,7.316e-14,3.137e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K 227) { Blob [128]( 105, Hadron Decay , 1 -> 0 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 1 K 227 ( 104 -> 105) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b42870) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Decay_Handler_Base::FillOnshellDecay() { 311,310 K --> K(S) 5e-17 (5e-17 ) GeV Blob [128]( 105, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K 227 ( 104 -> 105) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 228 ( 105 -> ) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) } Hadron_Decay_Handler::CreateDecayBlob(K(S)) { Decay_Table::Select(K(S)) { 134:*selected=310,111,111 K(S) --> pi pi 2.257e-15 (3.687e-18 ) GeV } 149:inpart->Momentum()=(15.57,0.1381,0.38,15.55) } Decay_Handler_Base::SetMasses(1) { } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 105, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K -> K(S)) { Blob [128]( 105, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Momentum conserved: (0,0,0,0) Define_Dipole::Define_Dipole() { Undefined(0,1,0,1) } Blob [0]( 105, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K 227 ( 104 -> 105) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b42870) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Momentum conserved: (0,0,0,0) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K(S) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K(S) 228) { Blob [128]( 107, Hadron Decay , 1 -> 0 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 1 K(S) 228 ( 105 -> 107) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Decay_Handler_Base::FillOnshellDecay() { 310,111,111 K(S) --> pi pi 2.257e-15 (3.687e-18 ) GeV Blob [128]( 107, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 K(S) 228 ( 105 -> 107) [( 1.5567e+01, 1.3815e-01, 3.8001e-01, 1.5554e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 229 ( 107 -> ) [( 1.3808e+01, 1.6091e-01, 4.0861e-01, 1.3800e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 230 ( 107 -> ) [( 1.7592e+00,-2.2761e-02,-2.8605e-02, 1.7537e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.759,-0.02276,-0.0286,1.754) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(13.81,0.1609,0.4086,13.8) } Decay_Handler_Base::SetMasses(2) { Decay_Channel::GenerateMass(0 < m[pi] < 0.4977) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 0.3627) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 107, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K(S) -> pi pi) { Blob [128]( 107, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Momentum conserved: (-7.792e-13,-8.549e-15,-1.682e-14,-7.74e-13) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 107, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 K(S) 228 ( 105 -> 107) [( 1.5446e+01, 1.6902e-01, 3.3520e-01, 1.5434e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b45bf0) * p_actual ((15.45,0.169,0.3352,15.43)) * p_onshell ((15.57,0.1381,0.38,15.55)) Momentum conserved: (-7.792e-13,-8.549e-15,-1.682e-14,-7.74e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 230) { Blob [128]( 108, Hadron Decay , 1 -> 0 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 1 pi 230 ( 107 -> 108) [( 1.7592e+00,-2.2761e-02,-2.8605e-02, 1.7537e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.749,-0.01885,-0.0341,1.744)) * p_onshell ((1.759,-0.02276,-0.0286,1.754)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 108, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 230 ( 107 -> 108) [( 1.7592e+00,-2.2761e-02,-2.8605e-02, 1.7537e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 231 ( 108 -> ) [( 1.3898e+00,-4.4644e-02,-7.0640e-02, 1.3873e+00), p^2= 8.0665e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 232 ( 108 -> ) [( 3.6944e-01, 2.1883e-02, 4.2035e-02, 3.6638e-01), p^2=-1.0842e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.749,-0.01885,-0.0341,1.744)) * p_onshell ((1.759,-0.02276,-0.0286,1.754)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 108, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 231 ( 108 -> ) [( 1.3831e+00,-4.1644e-02,-7.4885e-02, 1.3805e+00), p^2= 4.0939e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 232 ( 108 -> ) [( 3.6609e-01, 2.2796e-02, 4.0786e-02, 3.6310e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.749,-0.01885,-0.0341,1.744)) * p_onshell ((1.759,-0.02276,-0.0286,1.754))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 108, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 231 ( 108 -> ) [( 1.3831e+00,-4.1644e-02,-7.4885e-02, 1.3805e+00), p^2= 4.0939e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 232 ( 108 -> ) [( 3.6609e-01, 2.2796e-02, 4.0786e-02, 3.6310e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.749,-0.01885,-0.0341,1.744)) * p_onshell ((1.759,-0.02276,-0.0286,1.754)) Momentum conserved: (-6.106e-14,6.523e-16,1.193e-15,-6.045e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 108, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 230 ( 107 -> 108) [( 1.7492e+00,-1.8848e-02,-3.4099e-02, 1.7436e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 231 ( 108 -> ) [( 1.3831e+00,-4.1644e-02,-7.4885e-02, 1.3805e+00), p^2= 4.0939e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 232 ( 108 -> ) [( 3.6609e-01, 2.2796e-02, 4.0786e-02, 3.6310e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.749,-0.01885,-0.0341,1.744)) * p_onshell ((1.759,-0.02276,-0.0286,1.754)) Momentum conserved: (-6.106e-14,6.523e-16,1.193e-15,-6.045e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 230") } 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 229) { Blob [128]( 109, Hadron Decay , 1 -> 0 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 1 pi 229 ( 107 -> 109) [( 1.3808e+01, 1.6091e-01, 4.0861e-01, 1.3800e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.7,0.1879,0.3693,13.69)) * p_onshell ((13.81,0.1609,0.4086,13.8)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 109, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 229 ( 107 -> 109) [( 1.3808e+01, 1.6091e-01, 4.0861e-01, 1.3800e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 233 ( 109 -> ) [( 3.1132e+00,-1.1795e-02, 1.2162e-01, 3.1108e+00), p^2=-1.3045e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 234 ( 109 -> ) [( 1.0694e+01, 1.7270e-01, 2.8699e-01, 1.0689e+01), p^2= 9.4647e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.7,0.1879,0.3693,13.69)) * p_onshell ((13.81,0.1609,0.4086,13.8)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 109, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 233 ( 109 -> ) [( 3.0704e+00,-5.8841e-03, 1.1219e-01, 3.0683e+00), p^2= 1.4589e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 234 ( 109 -> ) [( 1.0627e+01, 1.9375e-01, 2.5711e-01, 1.0622e+01), p^2= 1.7694e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.7,0.1879,0.3693,13.69)) * p_onshell ((13.81,0.1609,0.4086,13.8))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 109, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 233 ( 109 -> ) [( 3.0704e+00,-5.8841e-03, 1.1219e-01, 3.0683e+00), p^2= 1.4589e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 234 ( 109 -> ) [( 1.0627e+01, 1.9375e-01, 2.5711e-01, 1.0622e+01), p^2= 1.7694e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.7,0.1879,0.3693,13.69)) * p_onshell ((13.81,0.1609,0.4086,13.8)) Momentum conserved: (-9.69e-12,-1.332e-13,-2.609e-13,-9.683e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 109, Hadron Decay , 1 -> 2 @ (792.3,7.119,19.23,791.6), Sherpa Incoming particles : [D] 2 pi 229 ( 107 -> 109) [( 1.3697e+01, 1.8787e-01, 3.6930e-01, 1.3690e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 233 ( 109 -> ) [( 3.0704e+00,-5.8841e-03, 1.1219e-01, 3.0683e+00), p^2= 1.4589e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 234 ( 109 -> ) [( 1.0627e+01, 1.9375e-01, 2.5711e-01, 1.0622e+01), p^2= 1.7694e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.7,0.1879,0.3693,13.69)) * p_onshell ((13.81,0.1609,0.4086,13.8)) Momentum conserved: (-9.69e-12,-1.332e-13,-2.609e-13,-9.683e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 229") } Decay_Handler_Base::FillDecayTree:338("finished daughters of K(S) 228") } Decay_Handler_Base::FillDecayTree:338("finished daughters of K 227") } 303:daughters[i]->Flav()=K*(892)+b Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(K*(892)+b 226) { Blob [128]( 106, Hadron Decay , 1 -> 0 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 1 K*(892)+b 226 ( 104 -> 106) [( 8.0773e+01, 2.3620e+00,-1.5542e-01, 8.0734e+01), p^2= 7.9506e-01, m= 1.0344e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b80b00) * p_actual ((80.6,2.321,-0.1112,80.56)) * p_onshell ((80.77,2.362,-0.1554,80.73)) Decay_Handler_Base::FillOnshellDecay() { 323,311,211 K*(892)+ --> K pi+ 0.03383 (0.03383 ) GeV Blob [128]( 106, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K*(892)+b 226 ( 104 -> 106) [( 8.0773e+01, 2.3620e+00,-1.5542e-01, 8.0734e+01), p^2= 7.9506e-01, m= 1.0344e+00] ( 0, 0) Outgoing particles : [D] 1 Kb 235 ( 106 -> ) [( 5.2817e+01, 1.4752e+00,-3.7851e-01, 5.2793e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [D] 1 pi+b 236 ( 106 -> ) [( 2.7956e+01, 8.8687e-01, 2.2309e-01, 2.7941e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b80b00) * p_actual ((80.6,2.321,-0.1112,80.56)) * p_onshell ((80.77,2.362,-0.1554,80.73)) } Hadron_Decay_Handler::CreateDecayBlob(Kb) { Decay_Table::Select(K) { 134:*selected=311,130 K --> K(L) 5e-17 (5e-17 ) GeV } 149:inpart->Momentum()=(52.82,1.475,-0.3785,52.79) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.034 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.4977 < m[K] < 0.8948) { 187:mass=0.4977 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 106, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) Outgoing particles : [D] 1 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [D] 1 pi+b 236 ( 106 -> ) [( 3.0883e+01, 9.8207e-01, 3.2800e-01, 3.0865e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b80b00) * p_actual ((80.6,2.321,-0.1112,80.56)) * p_onshell ((80.77,2.362,-0.1554,80.73))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K*(892)+b -> Kb pi+b) { Blob [128]( 106, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) Outgoing particles : [D] 1 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [D] 1 pi+b 236 ( 106 -> ) [( 3.0883e+01, 9.8207e-01, 3.2800e-01, 3.0865e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b80b00) * p_actual ((80.6,2.321,-0.1112,80.56)) * p_onshell ((80.77,2.362,-0.1554,80.73)) Momentum conserved: (-1.052e-10,-3.03e-12,1.451e-13,-1.052e-10) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( K*(892)+b -> pi+b Kb ) { nbar: 0.02442 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 106, Hadron Decay , 1 -> 2 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 K*(892)+b 226 ( 104 -> 106) [( 8.0595e+01, 2.3207e+00,-1.1116e-01, 8.0555e+01), p^2= 1.0699e+00, m= 1.0344e+00] ( 0, 0) Outgoing particles : [D] 1 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) [D] 1 pi+b 236 ( 106 -> ) [( 3.0883e+01, 9.8207e-01, 3.2800e-01, 3.0865e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b80b00) * p_actual ((80.6,2.321,-0.1112,80.56)) * p_onshell ((80.77,2.362,-0.1554,80.73)) Momentum conserved: (-1.052e-10,-3.03e-12,1.451e-13,-1.052e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=Kb Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(Kb 235) { Blob [128]( 110, Hadron Decay , 1 -> 0 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 1 Kb 235 ( 106 -> 110) [( 5.2817e+01, 1.4752e+00,-3.7851e-01, 5.2793e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((49.71,1.339,-0.4392,49.69)) * p_onshell ((52.82,1.475,-0.3785,52.79)) Decay_Handler_Base::FillOnshellDecay() { 311,130 K --> K(L) 5e-17 (5e-17 ) GeV Blob [128]( 110, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 Kb 235 ( 106 -> 110) [( 5.2817e+01, 1.4752e+00,-3.7851e-01, 5.2793e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 237 ( 110 -> ) [( 5.2817e+01, 1.4752e+00,-3.7851e-01, 5.2793e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((49.71,1.339,-0.4392,49.69)) * p_onshell ((52.82,1.475,-0.3785,52.79)) } Decay_Handler_Base::SetMasses(1) { } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 110, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 237 ( 110 -> ) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((49.71,1.339,-0.4392,49.69)) * p_onshell ((52.82,1.475,-0.3785,52.79))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Kb -> K(L)) { Blob [128]( 110, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 237 ( 110 -> ) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((49.71,1.339,-0.4392,49.69)) * p_onshell ((52.82,1.475,-0.3785,52.79)) Momentum conserved: (0,0,0,0) Define_Dipole::Define_Dipole() { Undefined(0,1,0,1) } Blob [0]( 110, Hadron Decay , 1 -> 1 @ (5.153,0.1337,0.01201,5.15), Sherpa Incoming particles : [D] 2 Kb 235 ( 106 -> 110) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Outgoing particles : [D] 1 K(L) 237 ( 110 -> ) [( 4.9712e+01, 1.3386e+00,-4.3916e-01, 4.9690e+01), p^2= 2.4768e-01, m= 4.9767e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b426d0) * p_actual ((49.71,1.339,-0.4392,49.69)) * p_onshell ((52.82,1.475,-0.3785,52.79)) Momentum conserved: (0,0,0,0) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=K(L) Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Kb 235") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K*(892)+b 226") } Decay_Handler_Base::FillDecayTree:338("finished daughters of D(s)+b 224") } Decay_Handler_Base::FillDecayTree:338("finished daughters of D(s)*+b 127") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)+b 104 ( 10 -> 28) [( 4.8280e+00,-3.9880e+00,-2.8405e-01, 2.3868e+00), p^2= 1.6278e+00, m= 1.2759e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)+b 104) { Blob [128]( 28, Hadron Decay , 1 -> 0 @ (6.265e-12,-5.188e-12,-3.693e-13,3.104e-12), Sherpa Incoming particles : [P] 1 Delta(1232)+b 104 ( 10 -> 28) [( 4.8276e+00,-3.9980e+00,-2.8459e-01, 2.3922e+00), p^2= 1.5178e+00, m= 1.2759e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((4.828,-3.988,-0.284,2.387)) * p_onshell ((4.828,-3.998,-0.2846,2.392)) Decay_Handler_Base::FillOnshellDecay() { 2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV Blob [128]( 28, Hadron Decay , 1 -> 2 @ (6.265e-12,-5.188e-12,-3.693e-13,3.104e-12), Sherpa Incoming particles : [P] 2 Delta(1232)+b 104 ( 10 -> 28) [( 4.8276e+00,-3.9980e+00,-2.8459e-01, 2.3922e+00), p^2= 1.5178e+00, m= 1.2759e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 238 ( 28 -> ) [( 3.8343e+00,-3.0782e+00,-1.2488e-01, 2.0810e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 239 ( 28 -> ) [( 9.9329e-01,-9.1981e-01,-1.5971e-01, 3.1122e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((4.828,-3.988,-0.284,2.387)) * p_onshell ((4.828,-3.998,-0.2846,2.392)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.9933,-0.9198,-0.1597,0.3112) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.276 > m[P+b]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.3376) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.002 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 28, Hadron Decay , 1 -> 2 @ (6.265e-12,-5.188e-12,-3.693e-13,3.104e-12), Sherpa Incoming particles : [D] 2 Delta(1232)+b 104 ( 10 -> 28) [( 4.8280e+00,-3.9880e+00,-2.8405e-01, 2.3868e+00), p^2= 1.6278e+00, m= 1.2759e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 238 ( 28 -> ) [( 3.7465e+00,-2.9810e+00,-1.0220e-01, 2.0636e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((4.828,-3.988,-0.284,2.387)) * p_onshell ((4.828,-3.998,-0.2846,2.392))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)+b -> P+b pi) { Blob [128]( 28, Hadron Decay , 1 -> 2 @ (6.265e-12,-5.188e-12,-3.693e-13,3.104e-12), Sherpa Incoming particles : [D] 2 Delta(1232)+b 104 ( 10 -> 28) [( 4.8280e+00,-3.9880e+00,-2.8405e-01, 2.3868e+00), p^2= 1.6278e+00, m= 1.2759e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 238 ( 28 -> ) [( 3.7465e+00,-2.9810e+00,-1.0220e-01, 2.0636e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((4.828,-3.988,-0.284,2.387)) * p_onshell ((4.828,-3.998,-0.2846,2.392)) Momentum conserved: (-6.439e-15,6.439e-15,4.996e-16,-3.608e-15) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Delta(1232)+b -> P+b pi ) { nbar: 0.000682 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 28, Hadron Decay , 1 -> 2 @ (6.265e-12,-5.188e-12,-3.693e-13,3.104e-12), Sherpa Incoming particles : [D] 2 Delta(1232)+b 104 ( 10 -> 28) [( 4.8280e+00,-3.9880e+00,-2.8405e-01, 2.3868e+00), p^2= 1.6278e+00, m= 1.2759e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 238 ( 28 -> ) [( 3.7465e+00,-2.9810e+00,-1.0220e-01, 2.0636e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((4.828,-3.988,-0.284,2.387)) * p_onshell ((4.828,-3.998,-0.2846,2.392)) Momentum conserved: (-6.439e-15,6.439e-15,4.996e-16,-3.608e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 239) { Blob [128]( 111, Hadron Decay , 1 -> 0 @ (0.0002786,-0.000258,-4.48e-05,8.73e-05), Sherpa Incoming particles : [D] 1 pi 239 ( 28 -> 111) [( 9.9329e-01,-9.1981e-01,-1.5971e-01, 3.1122e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.082,-1.007,-0.1818,0.3232)) * p_onshell ((0.9933,-0.9198,-0.1597,0.3112)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 111, Hadron Decay , 1 -> 2 @ (0.0002786,-0.000258,-4.48e-05,8.73e-05), Sherpa Incoming particles : [D] 2 pi 239 ( 28 -> 111) [( 9.9329e-01,-9.1981e-01,-1.5971e-01, 3.1122e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 240 ( 111 -> ) [( 3.9169e-01,-3.4308e-01,-4.5888e-02, 1.8333e-01), p^2= 2.4720e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 241 ( 111 -> ) [( 6.0160e-01,-5.7673e-01,-1.1382e-01, 1.2788e-01), p^2= 4.8572e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.082,-1.007,-0.1818,0.3232)) * p_onshell ((0.9933,-0.9198,-0.1597,0.3112)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 111, Hadron Decay , 1 -> 2 @ (0.0002786,-0.000258,-4.48e-05,8.73e-05), Sherpa Incoming particles : [D] 2 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 240 ( 111 -> ) [( 4.1749e-01,-3.7018e-01,-5.3389e-02, 1.8551e-01), p^2= 2.1684e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 241 ( 111 -> ) [( 6.6402e-01,-6.3677e-01,-1.2846e-01, 1.3764e-01), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.082,-1.007,-0.1818,0.3232)) * p_onshell ((0.9933,-0.9198,-0.1597,0.3112))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 111, Hadron Decay , 1 -> 2 @ (0.0002786,-0.000258,-4.48e-05,8.73e-05), Sherpa Incoming particles : [D] 2 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 240 ( 111 -> ) [( 4.1749e-01,-3.7018e-01,-5.3389e-02, 1.8551e-01), p^2= 2.1684e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 241 ( 111 -> ) [( 6.6402e-01,-6.3677e-01,-1.2846e-01, 1.3764e-01), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.082,-1.007,-0.1818,0.3232)) * p_onshell ((0.9933,-0.9198,-0.1597,0.3112)) Momentum conserved: (-9.215e-15,8.549e-15,1.527e-15,-2.692e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 111, Hadron Decay , 1 -> 2 @ (0.0002786,-0.000258,-4.48e-05,8.73e-05), Sherpa Incoming particles : [D] 2 pi 239 ( 28 -> 111) [( 1.0815e+00,-1.0070e+00,-1.8185e-01, 3.2315e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 240 ( 111 -> ) [( 4.1749e-01,-3.7018e-01,-5.3389e-02, 1.8551e-01), p^2= 2.1684e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 241 ( 111 -> ) [( 6.6402e-01,-6.3677e-01,-1.2846e-01, 1.3764e-01), p^2=-1.1102e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.082,-1.007,-0.1818,0.3232)) * p_onshell ((0.9933,-0.9198,-0.1597,0.3112)) Momentum conserved: (-9.215e-15,8.549e-15,1.527e-15,-2.692e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 239") } 303:daughters[i]->Flav()=P+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)+b 104") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 omega(782) 109 ( 10 -> 29) [( 2.7286e+00, 6.3709e-01, 3.5460e-01, 2.5098e+00), p^2= 6.1438e-01, m= 7.8382e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(omega(782) 109) { Blob [128]( 29, Hadron Decay , 1 -> 0 @ (4.027e-12,9.406e-13,5.235e-13,3.705e-12), Sherpa Incoming particles : [P] 1 omega(782) 109 ( 10 -> 29) [( 2.7345e+00, 6.3877e-01, 3.5553e-01, 2.5162e+00), p^2= 6.1143e-01, m= 7.8382e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a7d170) * p_actual ((2.729,0.6371,0.3546,2.51)) * p_onshell ((2.734,0.6388,0.3555,2.516)) Decay_Handler_Base::FillOnshellDecay() { 223,111,22 omega(782) --> pi P 0.0007138 (2.355e-05 ) GeV Blob [128]( 29, Hadron Decay , 1 -> 2 @ (4.027e-12,9.406e-13,5.235e-13,3.705e-12), Sherpa Incoming particles : [P] 2 omega(782) 109 ( 10 -> 29) [( 2.7345e+00, 6.3877e-01, 3.5553e-01, 2.5162e+00), p^2= 6.1143e-01, m= 7.8382e-01] ( 0, 0) Outgoing particles : [D] 1 pi 242 ( 29 -> ) [( 1.8853e+00, 1.2504e-01, 3.6640e-01, 1.8401e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 P 243 ( 29 -> ) [( 8.4919e-01, 5.1373e-01,-1.0865e-02, 6.7608e-01), p^2= 1.2742e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4a7d170) * p_actual ((2.729,0.6371,0.3546,2.51)) * p_onshell ((2.734,0.6388,0.3555,2.516)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.885,0.125,0.3664,1.84) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.7838 > m[P]=0") Decay_Channel::GenerateMass(0 < m[pi] < 0.7838) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 29, Hadron Decay , 1 -> 2 @ (4.027e-12,9.406e-13,5.235e-13,3.705e-12), Sherpa Incoming particles : [D] 2 omega(782) 109 ( 10 -> 29) [( 2.7286e+00, 6.3709e-01, 3.5460e-01, 2.5098e+00), p^2= 6.1438e-01, m= 7.8382e-01] ( 0, 0) Outgoing particles : [D] 1 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 P 243 ( 29 -> ) [( 8.4857e-01, 5.1437e-01,-1.1361e-02, 6.7481e-01), p^2= 2.2958e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4a7d170) * p_actual ((2.729,0.6371,0.3546,2.51)) * p_onshell ((2.734,0.6388,0.3555,2.516))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi P) { Blob [128]( 29, Hadron Decay , 1 -> 2 @ (4.027e-12,9.406e-13,5.235e-13,3.705e-12), Sherpa Incoming particles : [D] 2 omega(782) 109 ( 10 -> 29) [( 2.7286e+00, 6.3709e-01, 3.5460e-01, 2.5098e+00), p^2= 6.1438e-01, m= 7.8382e-01] ( 0, 0) Outgoing particles : [D] 1 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 P 243 ( 29 -> ) [( 8.4857e-01, 5.1437e-01,-1.1361e-02, 6.7481e-01), p^2= 2.2958e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4a7d170) * p_actual ((2.729,0.6371,0.3546,2.51)) * p_onshell ((2.734,0.6388,0.3555,2.516)) Momentum conserved: (-2.554e-15,-7.772e-16,-4.163e-16,-2.442e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 29, Hadron Decay , 1 -> 2 @ (4.027e-12,9.406e-13,5.235e-13,3.705e-12), Sherpa Incoming particles : [D] 2 omega(782) 109 ( 10 -> 29) [( 2.7286e+00, 6.3709e-01, 3.5460e-01, 2.5098e+00), p^2= 6.1438e-01, m= 7.8382e-01] ( 0, 0) Outgoing particles : [D] 1 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 P 243 ( 29 -> ) [( 8.4857e-01, 5.1437e-01,-1.1361e-02, 6.7481e-01), p^2= 2.2958e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4a7d170) * p_actual ((2.729,0.6371,0.3546,2.51)) * p_onshell ((2.734,0.6388,0.3555,2.516)) Momentum conserved: (-2.554e-15,-7.772e-16,-4.163e-16,-2.442e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 242) { Blob [128]( 112, Hadron Decay , 1 -> 0 @ (7.314e-05,4.851e-06,1.421e-05,7.139e-05), Sherpa Incoming particles : [D] 1 pi 242 ( 29 -> 112) [( 1.8853e+00, 1.2504e-01, 3.6640e-01, 1.8401e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.88,0.1227,0.366,1.835)) * p_onshell ((1.885,0.125,0.3664,1.84)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 112, Hadron Decay , 1 -> 2 @ (7.314e-05,4.851e-06,1.421e-05,7.139e-05), Sherpa Incoming particles : [D] 2 pi 242 ( 29 -> 112) [( 1.8853e+00, 1.2504e-01, 3.6640e-01, 1.8401e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 244 ( 112 -> ) [( 1.2432e+00, 1.1681e-01, 2.9437e-01, 1.2021e+00), p^2= 9.7145e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 245 ( 112 -> ) [( 6.4211e-01, 8.2250e-03, 7.2027e-02, 6.3800e-01), p^2=-1.0322e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.88,0.1227,0.366,1.835)) * p_onshell ((1.885,0.125,0.3664,1.84)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 112, Hadron Decay , 1 -> 2 @ (7.314e-05,4.851e-06,1.421e-05,7.139e-05), Sherpa Incoming particles : [D] 2 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 244 ( 112 -> ) [( 1.2394e+00, 1.1529e-01, 2.9402e-01, 1.1985e+00), p^2=-3.4694e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 245 ( 112 -> ) [( 6.4059e-01, 7.4310e-03, 7.1933e-02, 6.3649e-01), p^2= 3.5562e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.88,0.1227,0.366,1.835)) * p_onshell ((1.885,0.125,0.3664,1.84))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 112, Hadron Decay , 1 -> 2 @ (7.314e-05,4.851e-06,1.421e-05,7.139e-05), Sherpa Incoming particles : [D] 2 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 244 ( 112 -> ) [( 1.2394e+00, 1.1529e-01, 2.9402e-01, 1.1985e+00), p^2=-3.4694e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 245 ( 112 -> ) [( 6.4059e-01, 7.4310e-03, 7.1933e-02, 6.3649e-01), p^2= 3.5562e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.88,0.1227,0.366,1.835)) * p_onshell ((1.885,0.125,0.3664,1.84)) Momentum conserved: (4.208e-14,2.762e-15,8.16e-15,4.13e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 112, Hadron Decay , 1 -> 2 @ (7.314e-05,4.851e-06,1.421e-05,7.139e-05), Sherpa Incoming particles : [D] 2 pi 242 ( 29 -> 112) [( 1.8800e+00, 1.2272e-01, 3.6596e-01, 1.8350e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 244 ( 112 -> ) [( 1.2394e+00, 1.1529e-01, 2.9402e-01, 1.1985e+00), p^2=-3.4694e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 245 ( 112 -> ) [( 6.4059e-01, 7.4310e-03, 7.1933e-02, 6.3649e-01), p^2= 3.5562e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.88,0.1227,0.366,1.835)) * p_onshell ((1.885,0.125,0.3664,1.84)) Momentum conserved: (4.208e-14,2.762e-15,8.16e-15,4.13e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 242") } Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 109") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Sigma(1670) 97 ( 10 -> 30) [( 1.0549e+01,-3.7451e+00, 1.7724e+00,-9.5597e+00), p^2= 2.7345e+00, m= 1.6536e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Sigma(1670) 97) { Blob [128]( 30, Hadron Decay , 1 -> 0 @ (8.076e-12,-2.867e-12,1.357e-12,-7.317e-12), Sherpa Incoming particles : [P] 1 Sigma(1670) 97 ( 10 -> 30) [( 1.0579e+01,-3.7548e+00, 1.7770e+00,-9.5844e+00), p^2= 2.7889e+00, m= 1.6536e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c0c9e0) * p_actual ((10.55,-3.745,1.772,-9.56)) * p_onshell ((10.58,-3.755,1.777,-9.584)) Decay_Handler_Base::FillOnshellDecay() { 103214,3222,-211 Sigma(1670) --> Sigma+ pi+b 0.015 (0.015 ) GeV Blob [128]( 30, Hadron Decay , 1 -> 2 @ (8.076e-12,-2.867e-12,1.357e-12,-7.317e-12), Sherpa Incoming particles : [P] 2 Sigma(1670) 97 ( 10 -> 30) [( 1.0579e+01,-3.7548e+00, 1.7770e+00,-9.5844e+00), p^2= 2.7889e+00, m= 1.6536e+00] ( 0, 0) Outgoing particles : [D] 1 Sigma+ 246 ( 30 -> ) [( 9.6970e+00,-3.3261e+00, 1.4143e+00,-8.9193e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) [D] 1 pi+b 247 ( 30 -> ) [( 8.8156e-01,-4.2867e-01, 3.6268e-01,-6.6511e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c0c9e0) * p_actual ((10.55,-3.745,1.772,-9.56)) * p_onshell ((10.58,-3.755,1.777,-9.584)) } Hadron_Decay_Handler::CreateDecayBlob(Sigma+) { Decay_Table::Select(Sigma+) { 134:*selected=3222,2212,111 Sigma+ --> P+ pi 4.249e-15 (2.472e-17 ) GeV } 149:inpart->Momentum()=(9.697,-3.326,1.414,-8.919) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.654 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(1.073 < m[Sigma+] < 1.514) { 187:mass=1.189 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9998 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 30, Hadron Decay , 1 -> 2 @ (8.076e-12,-2.867e-12,1.357e-12,-7.317e-12), Sherpa Incoming particles : [D] 2 Sigma(1670) 97 ( 10 -> 30) [( 1.0549e+01,-3.7451e+00, 1.7724e+00,-9.5597e+00), p^2= 2.7345e+00, m= 1.6536e+00] ( 0, 0) Outgoing particles : [D] 1 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) [D] 1 pi+b 247 ( 30 -> ) [( 8.6002e-01,-4.1663e-01, 3.5090e-01,-6.5072e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c0c9e0) * p_actual ((10.55,-3.745,1.772,-9.56)) * p_onshell ((10.58,-3.755,1.777,-9.584))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Sigma(1670) -> Sigma+ pi+b) { Blob [128]( 30, Hadron Decay , 1 -> 2 @ (8.076e-12,-2.867e-12,1.357e-12,-7.317e-12), Sherpa Incoming particles : [D] 2 Sigma(1670) 97 ( 10 -> 30) [( 1.0549e+01,-3.7451e+00, 1.7724e+00,-9.5597e+00), p^2= 2.7345e+00, m= 1.6536e+00] ( 0, 0) Outgoing particles : [D] 1 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) [D] 1 pi+b 247 ( 30 -> ) [( 8.6002e-01,-4.1663e-01, 3.5090e-01,-6.5072e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c0c9e0) * p_actual ((10.55,-3.745,1.772,-9.56)) * p_onshell ((10.58,-3.755,1.777,-9.584)) Momentum conserved: (1.221e-14,-3.331e-15,1.443e-15,-1.066e-14) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( Sigma(1670) -> Sigma+ pi+b ) { nbar: 0.03241 n: 0 -> accept } Blob [0]( 30, Hadron Decay , 1 -> 2 @ (8.076e-12,-2.867e-12,1.357e-12,-7.317e-12), Sherpa Incoming particles : [D] 2 Sigma(1670) 97 ( 10 -> 30) [( 1.0549e+01,-3.7451e+00, 1.7724e+00,-9.5597e+00), p^2= 2.7345e+00, m= 1.6536e+00] ( 0, 0) Outgoing particles : [D] 1 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) [D] 1 pi+b 247 ( 30 -> ) [( 8.6002e-01,-4.1663e-01, 3.5090e-01,-6.5072e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c0c9e0) * p_actual ((10.55,-3.745,1.772,-9.56)) * p_onshell ((10.58,-3.755,1.777,-9.584)) Momentum conserved: (1.221e-14,-3.331e-15,1.443e-15,-1.066e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=Sigma+ Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(Sigma+ 246) { Blob [128]( 113, Hadron Decay , 1 -> 0 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 1 Sigma+ 246 ( 30 -> 113) [( 9.6970e+00,-3.3261e+00, 1.4143e+00,-8.9193e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bde050) * p_actual ((9.689,-3.328,1.421,-8.909)) * p_onshell ((9.697,-3.326,1.414,-8.919)) Decay_Handler_Base::FillOnshellDecay() { 3222,2212,111 Sigma+ --> P+ pi 4.249e-15 (2.472e-17 ) GeV Blob [128]( 113, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 Sigma+ 246 ( 30 -> 113) [( 9.6970e+00,-3.3261e+00, 1.4143e+00,-8.9193e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 248 ( 113 -> ) [( 7.5384e+00,-2.6662e+00, 9.3172e-01,-6.9261e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 249 ( 113 -> ) [( 2.1586e+00,-6.5997e-01, 4.8256e-01,-1.9932e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bde050) * p_actual ((9.689,-3.328,1.421,-8.909)) * p_onshell ((9.697,-3.326,1.414,-8.919)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(2.159,-0.66,0.4826,-1.993) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.189 > m[P+]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.2511) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 113, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 248 ( 113 -> ) [( 7.5317e+00,-2.6677e+00, 9.3724e-01,-6.9174e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bde050) * p_actual ((9.689,-3.328,1.421,-8.909)) * p_onshell ((9.697,-3.326,1.414,-8.919))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Sigma+ -> P+ pi) { Blob [128]( 113, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 248 ( 113 -> ) [( 7.5317e+00,-2.6677e+00, 9.3724e-01,-6.9174e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bde050) * p_actual ((9.689,-3.328,1.421,-8.909)) * p_onshell ((9.697,-3.326,1.414,-8.919)) Momentum conserved: (1.07e-13,-3.764e-14,1.565e-14,-9.859e-14) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Sigma+ -> P+ pi ) { nbar: 0.0003098 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 113, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 Sigma+ 246 ( 30 -> 113) [( 9.6894e+00,-3.3284e+00, 1.4215e+00,-8.9090e+00), p^2= 1.4146e+00, m= 1.1894e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 248 ( 113 -> ) [( 7.5317e+00,-2.6677e+00, 9.3724e-01,-6.9174e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bde050) * p_actual ((9.689,-3.328,1.421,-8.909)) * p_onshell ((9.697,-3.326,1.414,-8.919)) Momentum conserved: (1.07e-13,-3.764e-14,1.565e-14,-9.859e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 249) { Blob [128]( 114, Hadron Decay , 1 -> 0 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 1 pi 249 ( 113 -> 114) [( 2.1586e+00,-6.5997e-01, 4.8256e-01,-1.9932e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.158,-0.6607,0.4842,-1.992)) * p_onshell ((2.159,-0.66,0.4826,-1.993)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 114, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 pi 249 ( 113 -> 114) [( 2.1586e+00,-6.5997e-01, 4.8256e-01,-1.9932e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 250 ( 114 -> ) [( 2.6616e-01,-1.2209e-01, 4.9375e-02,-2.3130e-01), p^2= 3.0358e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 251 ( 114 -> ) [( 1.8924e+00,-5.3788e-01, 4.3318e-01,-1.7619e+00), p^2= 3.6082e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.158,-0.6607,0.4842,-1.992)) * p_onshell ((2.159,-0.66,0.4826,-1.993)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 114, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 250 ( 114 -> ) [( 2.6631e-01,-1.2228e-01, 4.9678e-02,-2.3130e-01), p^2= 1.8215e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 251 ( 114 -> ) [( 1.8914e+00,-5.3844e-01, 4.3457e-01,-1.7603e+00), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.158,-0.6607,0.4842,-1.992)) * p_onshell ((2.159,-0.66,0.4826,-1.993))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 114, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 250 ( 114 -> ) [( 2.6631e-01,-1.2228e-01, 4.9678e-02,-2.3130e-01), p^2= 1.8215e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 251 ( 114 -> ) [( 1.8914e+00,-5.3844e-01, 4.3457e-01,-1.7603e+00), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.158,-0.6607,0.4842,-1.992)) * p_onshell ((2.159,-0.66,0.4826,-1.993)) Momentum conserved: (-3.308e-14,9.881e-15,-7.216e-15,2.998e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 114, Hadron Decay , 1 -> 2 @ (135.4,-46.45,19.75,-124.6), Sherpa Incoming particles : [D] 2 pi 249 ( 113 -> 114) [( 2.1577e+00,-6.6072e-01, 4.8425e-01,-1.9916e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 250 ( 114 -> ) [( 2.6631e-01,-1.2228e-01, 4.9678e-02,-2.3130e-01), p^2= 1.8215e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 251 ( 114 -> ) [( 1.8914e+00,-5.3844e-01, 4.3457e-01,-1.7603e+00), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.158,-0.6607,0.4842,-1.992)) * p_onshell ((2.159,-0.66,0.4826,-1.993)) Momentum conserved: (-3.308e-14,9.881e-15,-7.216e-15,2.998e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 249") } 303:daughters[i]->Flav()=P+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Sigma+ 246") } Decay_Handler_Base::FillDecayTree:338("finished daughters of Sigma(1670) 97") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 143 ( 10 -> ) [( 8.2235e+01,-6.1059e-01, 9.4360e-01,-8.2227e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2345e+01, 1.2548e-01,-3.1313e-01,-4.2316e+01), p^2= 2.3445e+00, m= 1.5312e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(a(2)(1320)+ 121) { Blob [128]( 31, Hadron Decay , 1 -> 0 @ (6.64e-11,1.97e-13,-4.909e-13,-6.637e-11), Sherpa Incoming particles : [P] 1 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2448e+01, 1.2596e-01,-3.1384e-01,-4.2426e+01), p^2= 1.7374e+00, m= 1.5312e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bb1a00) * p_actual ((42.35,0.1255,-0.3131,-42.32)) * p_onshell ((42.45,0.126,-0.3138,-42.43)) Decay_Handler_Base::FillOnshellDecay() { 215,223,211,111 a(2)(1320)+ --> omega(782) pi+ pi 0.01135 (0.003424 ) GeV Blob [128]( 31, Hadron Decay , 1 -> 3 @ (6.64e-11,1.97e-13,-4.909e-13,-6.637e-11), Sherpa Incoming particles : [P] 2 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2448e+01, 1.2596e-01,-3.1384e-01,-4.2426e+01), p^2= 1.7374e+00, m= 1.5312e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 252 ( 31 -> ) [( 3.5183e+01, 1.4617e-01,-2.9151e-01,-3.5173e+01), p^2= 6.1143e-01, m= 7.8194e-01] ( 0, 0) [D] 1 pi+ 253 ( 31 -> ) [( 2.3774e+00, 1.2471e-01,-3.1779e-02,-2.3698e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 254 ( 31 -> ) [( 4.8873e+00,-1.4492e-01, 9.4452e-03,-4.8832e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb1a00) * p_actual ((42.35,0.1255,-0.3131,-42.32)) * p_onshell ((42.45,0.126,-0.3138,-42.43)) } Hadron_Decay_Handler::CreateDecayBlob(omega(782)) { Decay_Table::Select(omega(782)) { 134:*selected=223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV } 149:inpart->Momentum()=(35.18,0.1462,-0.2915,-35.17) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(4.887,-0.1449,0.009445,-4.883) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("1.531 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 1.392) { 187:mass=0.135 } Decay_Channel::GenerateMass(0.4141 < m[omega(782)] < 1.257) { 187:mass=0.7825 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 31, Hadron Decay , 1 -> 3 @ (6.64e-11,1.97e-13,-4.909e-13,-6.637e-11), Sherpa Incoming particles : [D] 2 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2345e+01, 1.2548e-01,-3.1313e-01,-4.2316e+01), p^2= 2.3445e+00, m= 1.5312e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) [D] 1 pi+ 253 ( 31 -> ) [( 2.4925e+00, 1.9458e-01,-4.1026e-02,-2.4806e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb1a00) * p_actual ((42.35,0.1255,-0.3131,-42.32)) * p_onshell ((42.45,0.126,-0.3138,-42.43))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=a(2)(1320)+ -> omega(782) pi+ pi) { Blob [128]( 31, Hadron Decay , 1 -> 3 @ (6.64e-11,1.97e-13,-4.909e-13,-6.637e-11), Sherpa Incoming particles : [D] 2 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2345e+01, 1.2548e-01,-3.1313e-01,-4.2316e+01), p^2= 2.3445e+00, m= 1.5312e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) [D] 1 pi+ 253 ( 31 -> ) [( 2.4925e+00, 1.9458e-01,-4.1026e-02,-2.4806e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb1a00) * p_actual ((42.35,0.1255,-0.3131,-42.32)) * p_onshell ((42.45,0.126,-0.3138,-42.43)) Momentum conserved: (-9.415e-14,-1.943e-16,8.396e-16,9.148e-14) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,2) } Dipole_FI::AddRadiation( a(2)(1320)+ -> pi+ omega(782) pi ) { nbar: 0.0212 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 31, Hadron Decay , 1 -> 3 @ (6.64e-11,1.97e-13,-4.909e-13,-6.637e-11), Sherpa Incoming particles : [D] 2 a(2)(1320)+ 121 ( 10 -> 31) [( 4.2345e+01, 1.2548e-01,-3.1313e-01,-4.2316e+01), p^2= 2.3445e+00, m= 1.5312e+00] ( 0, 0) Outgoing particles : [D] 1 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) [D] 1 pi+ 253 ( 31 -> ) [( 2.4925e+00, 1.9458e-01,-4.1026e-02,-2.4806e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb1a00) * p_actual ((42.35,0.1255,-0.3131,-42.32)) * p_onshell ((42.45,0.126,-0.3138,-42.43)) Momentum conserved: (-9.415e-14,-1.943e-16,8.396e-16,9.148e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=omega(782) Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(omega(782) 252) { Blob [128]( 115, Hadron Decay , 1 -> 0 @ (1.976e-09,8.129e-12,-1.631e-11,-1.975e-09), Sherpa Incoming particles : [D] 1 omega(782) 252 ( 31 -> 115) [( 3.5183e+01, 1.4617e-01,-2.9151e-01,-3.5173e+01), p^2= 6.1143e-01, m= 7.8251e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((34.01,0.1672,-0.3014,-34)) * p_onshell ((35.18,0.1462,-0.2915,-35.17)) Decay_Handler_Base::FillOnshellDecay() { 223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV Blob [128]( 115, Hadron Decay , 1 -> 3 @ (1.976e-09,8.129e-12,-1.631e-11,-1.975e-09), Sherpa Incoming particles : [D] 2 omega(782) 252 ( 31 -> 115) [( 3.5183e+01, 1.4617e-01,-2.9151e-01,-3.5173e+01), p^2= 6.1143e-01, m= 7.8251e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 255 ( 115 -> ) [( 1.1708e+01, 2.0827e-01, 7.8311e-02,-1.1705e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 256 ( 115 -> ) [( 1.8773e+01, 6.6058e-02,-2.8315e-01,-1.8771e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 257 ( 115 -> ) [( 4.7017e+00,-1.2816e-01,-8.6662e-02,-4.6973e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((34.01,0.1672,-0.3014,-34)) * p_onshell ((35.18,0.1462,-0.2915,-35.17)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(4.702,-0.1282,-0.08666,-4.697) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.7825 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6429 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.5034) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 115, Hadron Decay , 1 -> 3 @ (1.976e-09,8.129e-12,-1.631e-11,-1.975e-09), Sherpa Incoming particles : [D] 2 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 255 ( 115 -> ) [( 1.1323e+01, 2.1551e-01, 7.5189e-02,-1.1319e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 256 ( 115 -> ) [( 1.8148e+01, 7.7157e-02,-2.8852e-01,-1.8145e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((34.01,0.1672,-0.3014,-34)) * p_onshell ((35.18,0.1462,-0.2915,-35.17))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi+ pi+b pi) { Blob [128]( 115, Hadron Decay , 1 -> 3 @ (1.976e-09,8.129e-12,-1.631e-11,-1.975e-09), Sherpa Incoming particles : [D] 2 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 255 ( 115 -> ) [( 1.1323e+01, 2.1551e-01, 7.5189e-02,-1.1319e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 256 ( 115 -> ) [( 1.8148e+01, 7.7157e-02,-2.8852e-01,-1.8145e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((34.01,0.1672,-0.3014,-34)) * p_onshell ((35.18,0.1462,-0.2915,-35.17)) Momentum conserved: (2.433e-12,1.177e-14,-2.137e-14,-2.435e-12) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( omega(782) -> pi+ pi+b pi ) { nbar: 0.04124 n: 0 -> accept } Blob [0]( 115, Hadron Decay , 1 -> 3 @ (1.976e-09,8.129e-12,-1.631e-11,-1.975e-09), Sherpa Incoming particles : [D] 2 omega(782) 252 ( 31 -> 115) [( 3.4013e+01, 1.6723e-01,-3.0144e-01,-3.4002e+01), p^2= 6.1232e-01, m= 7.8251e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 255 ( 115 -> ) [( 1.1323e+01, 2.1551e-01, 7.5189e-02,-1.1319e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 256 ( 115 -> ) [( 1.8148e+01, 7.7157e-02,-2.8852e-01,-1.8145e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((34.01,0.1672,-0.3014,-34)) * p_onshell ((35.18,0.1462,-0.2915,-35.17)) Momentum conserved: (2.433e-12,1.177e-14,-2.137e-14,-2.435e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 257) { Blob [128]( 117, Hadron Decay , 1 -> 0 @ (0.002097,-5.717e-05,-3.866e-05,-0.002095), Sherpa Incoming particles : [D] 1 pi 257 ( 115 -> 117) [( 4.7017e+00,-1.2816e-01,-8.6662e-02,-4.6973e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.542,-0.1254,-0.08811,-4.538)) * p_onshell ((4.702,-0.1282,-0.08666,-4.697)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 117, Hadron Decay , 1 -> 2 @ (0.002097,-5.717e-05,-3.866e-05,-0.002095), Sherpa Incoming particles : [D] 2 pi 257 ( 115 -> 117) [( 4.7017e+00,-1.2816e-01,-8.6662e-02,-4.6973e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 258 ( 117 -> ) [( 3.9818e+00,-8.8067e-02,-1.1746e-01,-3.9791e+00), p^2= 3.5423e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 259 ( 117 -> ) [( 7.1991e-01,-4.0090e-02, 3.0802e-02,-7.1813e-01), p^2= 5.3668e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.542,-0.1254,-0.08811,-4.538)) * p_onshell ((4.702,-0.1282,-0.08666,-4.697)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 117, Hadron Decay , 1 -> 2 @ (0.002097,-5.717e-05,-3.866e-05,-0.002095), Sherpa Incoming particles : [D] 2 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 258 ( 117 -> ) [( 3.8479e+00,-8.5775e-02,-1.1867e-01,-3.8451e+00), p^2= 8.1532e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 259 ( 117 -> ) [( 6.9435e-01,-3.9657e-02, 3.0559e-02,-6.9254e-01), p^2=-8.0231e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.542,-0.1254,-0.08811,-4.538)) * p_onshell ((4.702,-0.1282,-0.08666,-4.697))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 117, Hadron Decay , 1 -> 2 @ (0.002097,-5.717e-05,-3.866e-05,-0.002095), Sherpa Incoming particles : [D] 2 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 258 ( 117 -> ) [( 3.8479e+00,-8.5775e-02,-1.1867e-01,-3.8451e+00), p^2= 8.1532e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 259 ( 117 -> ) [( 6.9435e-01,-3.9657e-02, 3.0559e-02,-6.9254e-01), p^2=-8.0231e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.542,-0.1254,-0.08811,-4.538)) * p_onshell ((4.702,-0.1282,-0.08666,-4.697)) Momentum conserved: (1.517e-12,-4.188e-14,-2.94e-14,-1.517e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 117, Hadron Decay , 1 -> 2 @ (0.002097,-5.717e-05,-3.866e-05,-0.002095), Sherpa Incoming particles : [D] 2 pi 257 ( 115 -> 117) [( 4.5422e+00,-1.2543e-01,-8.8107e-02,-4.5376e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 258 ( 117 -> ) [( 3.8479e+00,-8.5775e-02,-1.1867e-01,-3.8451e+00), p^2= 8.1532e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 259 ( 117 -> ) [( 6.9435e-01,-3.9657e-02, 3.0559e-02,-6.9254e-01), p^2=-8.0231e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((4.542,-0.1254,-0.08811,-4.538)) * p_onshell ((4.702,-0.1282,-0.08666,-4.697)) Momentum conserved: (1.517e-12,-4.188e-14,-2.94e-14,-1.517e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 257") } Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 252") } 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 254) { Blob [128]( 116, Hadron Decay , 1 -> 0 @ (0.0027,-8.007e-05,5.218e-06,-0.002698), Sherpa Incoming particles : [D] 1 pi 254 ( 31 -> 116) [( 4.8873e+00,-1.4492e-01, 9.4452e-03,-4.8832e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((5.84,-0.2363,0.02933,-5.833)) * p_onshell ((4.887,-0.1449,0.009445,-4.883)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 116, Hadron Decay , 1 -> 2 @ (0.0027,-8.007e-05,5.218e-06,-0.002698), Sherpa Incoming particles : [D] 2 pi 254 ( 31 -> 116) [( 4.8873e+00,-1.4492e-01, 9.4452e-03,-4.8832e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 260 ( 116 -> ) [( 3.8840e+00,-1.0509e-01,-4.6052e-02,-3.8823e+00), p^2= 6.5052e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 261 ( 116 -> ) [( 1.0033e+00,-3.9824e-02, 5.5497e-02,-1.0010e+00), p^2= 1.0408e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((5.84,-0.2363,0.02933,-5.833)) * p_onshell ((4.887,-0.1449,0.009445,-4.883)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 116, Hadron Decay , 1 -> 2 @ (0.0027,-8.007e-05,5.218e-06,-0.002698), Sherpa Incoming particles : [D] 2 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 260 ( 116 -> ) [( 4.6291e+00,-1.7685e-01,-3.0426e-02,-4.6256e+00), p^2= 3.3839e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 261 ( 116 -> ) [( 1.2106e+00,-5.9482e-02, 5.9758e-02,-1.2077e+00), p^2= 3.3784e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((5.84,-0.2363,0.02933,-5.833)) * p_onshell ((4.887,-0.1449,0.009445,-4.883))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 116, Hadron Decay , 1 -> 2 @ (0.0027,-8.007e-05,5.218e-06,-0.002698), Sherpa Incoming particles : [D] 2 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 260 ( 116 -> ) [( 4.6291e+00,-1.7685e-01,-3.0426e-02,-4.6256e+00), p^2= 3.3839e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 261 ( 116 -> ) [( 1.2106e+00,-5.9482e-02, 5.9758e-02,-1.2077e+00), p^2= 3.3784e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((5.84,-0.2363,0.02933,-5.833)) * p_onshell ((4.887,-0.1449,0.009445,-4.883)) Momentum conserved: (1.227e-12,-4.953e-14,6.12e-15,-1.226e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 116, Hadron Decay , 1 -> 2 @ (0.0027,-8.007e-05,5.218e-06,-0.002698), Sherpa Incoming particles : [D] 2 pi 254 ( 31 -> 116) [( 5.8397e+00,-2.3633e-01, 2.9332e-02,-5.8333e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 260 ( 116 -> ) [( 4.6291e+00,-1.7685e-01,-3.0426e-02,-4.6256e+00), p^2= 3.3839e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 261 ( 116 -> ) [( 1.2106e+00,-5.9482e-02, 5.9758e-02,-1.2077e+00), p^2= 3.3784e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((5.84,-0.2363,0.02933,-5.833)) * p_onshell ((4.887,-0.1449,0.009445,-4.883)) Momentum conserved: (1.227e-12,-4.953e-14,6.12e-15,-1.226e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 254") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of a(2)(1320)+ 121") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 a(1)(1260) 100 ( 10 -> 32) [( 1.6245e+02,-6.5563e-01, 2.3795e-02, 1.6245e+02), p^2= 1.6956e+00, m= 1.3022e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(a(1)(1260) 100) { Blob [128]( 32, Hadron Decay , 1 -> 0 @ (9.711e-11,-3.919e-13,1.423e-14,9.711e-11), Sherpa Incoming particles : [P] 1 a(1)(1260) 100 ( 10 -> 32) [( 1.6287e+02,-6.5731e-01, 2.3866e-02, 1.6287e+02), p^2= 1.5129e+00, m= 1.3022e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4acc350) * p_actual ((162.5,-0.6556,0.02379,162.4)) * p_onshell ((162.9,-0.6573,0.02387,162.9)) Decay_Handler_Base::FillOnshellDecay() { 20113,213,-211 a(1)(1260) --> rho(770)+ pi+b 0.2 (0.2 ) GeV Blob [128]( 32, Hadron Decay , 1 -> 2 @ (9.711e-11,-3.919e-13,1.423e-14,9.711e-11), Sherpa Incoming particles : [P] 2 a(1)(1260) 100 ( 10 -> 32) [( 1.6287e+02,-6.5731e-01, 2.3866e-02, 1.6287e+02), p^2= 1.5129e+00, m= 1.3022e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 262 ( 32 -> ) [( 1.5324e+02,-7.9261e-01, 4.3902e-02, 1.5324e+02), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [D] 1 pi+b 263 ( 32 -> ) [( 9.6350e+00, 1.3530e-01,-2.0036e-02, 9.6330e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4acc350) * p_actual ((162.5,-0.6556,0.02379,162.4)) * p_onshell ((162.9,-0.6573,0.02387,162.9)) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(153.2,-0.7926,0.0439,153.2) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.302 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 1.163) { 187:mass=0.7535 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 32, Hadron Decay , 1 -> 2 @ (9.711e-11,-3.919e-13,1.423e-14,9.711e-11), Sherpa Incoming particles : [D] 2 a(1)(1260) 100 ( 10 -> 32) [( 1.6245e+02,-6.5563e-01, 2.3795e-02, 1.6245e+02), p^2= 1.6956e+00, m= 1.3022e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) [D] 1 pi+b 263 ( 32 -> ) [( 1.0280e+01, 1.7214e-01,-2.4800e-02, 1.0278e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4acc350) * p_actual ((162.5,-0.6556,0.02379,162.4)) * p_onshell ((162.9,-0.6573,0.02387,162.9))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=a(1)(1260) -> rho(770)+ pi+b) { Blob [128]( 32, Hadron Decay , 1 -> 2 @ (9.711e-11,-3.919e-13,1.423e-14,9.711e-11), Sherpa Incoming particles : [D] 2 a(1)(1260) 100 ( 10 -> 32) [( 1.6245e+02,-6.5563e-01, 2.3795e-02, 1.6245e+02), p^2= 1.6956e+00, m= 1.3022e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) [D] 1 pi+b 263 ( 32 -> ) [( 1.0280e+01, 1.7214e-01,-2.4800e-02, 1.0278e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4acc350) * p_actual ((162.5,-0.6556,0.02379,162.4)) * p_onshell ((162.9,-0.6573,0.02387,162.9)) Momentum conserved: (3.587e-10,-1.448e-12,5.253e-14,3.586e-10) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( a(1)(1260) -> rho(770)+ pi+b ) { nbar: 0.04271 n: 0 -> accept } Blob [0]( 32, Hadron Decay , 1 -> 2 @ (9.711e-11,-3.919e-13,1.423e-14,9.711e-11), Sherpa Incoming particles : [D] 2 a(1)(1260) 100 ( 10 -> 32) [( 1.6245e+02,-6.5563e-01, 2.3795e-02, 1.6245e+02), p^2= 1.6956e+00, m= 1.3022e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) [D] 1 pi+b 263 ( 32 -> ) [( 1.0280e+01, 1.7214e-01,-2.4800e-02, 1.0278e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4acc350) * p_actual ((162.5,-0.6556,0.02379,162.4)) * p_onshell ((162.9,-0.6573,0.02387,162.9)) Momentum conserved: (3.587e-10,-1.448e-12,5.253e-14,3.586e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=rho(770)+ Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(rho(770)+ 262) { Blob [128]( 118, Hadron Decay , 1 -> 0 @ (1.806e-10,-8.237e-13,3.815e-14,1.806e-10), Sherpa Incoming particles : [D] 1 rho(770)+ 262 ( 32 -> 118) [( 1.5324e+02,-7.9261e-01, 4.3902e-02, 1.5324e+02), p^2= 5.9290e-01, m= 7.5353e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((152.2,-0.8278,0.04859,152.2)) * p_onshell ((153.2,-0.7926,0.0439,153.2)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 118, Hadron Decay , 1 -> 2 @ (1.806e-10,-8.237e-13,3.815e-14,1.806e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 262 ( 32 -> 118) [( 1.5324e+02,-7.9261e-01, 4.3902e-02, 1.5324e+02), p^2= 5.9290e-01, m= 7.5353e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 264 ( 118 -> ) [( 1.4096e+02,-8.8028e-01,-9.8143e-03, 1.4096e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 265 ( 118 -> ) [( 1.2276e+01, 8.7674e-02, 5.3717e-02, 1.2275e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((152.2,-0.8278,0.04859,152.2)) * p_onshell ((153.2,-0.7926,0.0439,153.2)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(12.28,0.08767,0.05372,12.28) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.7535 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.614) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 118, Hadron Decay , 1 -> 2 @ (1.806e-10,-8.237e-13,3.815e-14,1.806e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 264 ( 118 -> ) [( 1.4006e+02,-9.0668e-01,-3.4045e-03, 1.4005e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((152.2,-0.8278,0.04859,152.2)) * p_onshell ((153.2,-0.7926,0.0439,153.2))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+ -> pi+ pi) { Blob [128]( 118, Hadron Decay , 1 -> 2 @ (1.806e-10,-8.237e-13,3.815e-14,1.806e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 264 ( 118 -> ) [( 1.4006e+02,-9.0668e-01,-3.4045e-03, 1.4005e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((152.2,-0.8278,0.04859,152.2)) * p_onshell ((153.2,-0.7926,0.0439,153.2)) Momentum conserved: (6.138e-10,-3.34e-12,1.961e-13,6.138e-10) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+ -> pi+ pi ) { nbar: 0.02293 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 118, Hadron Decay , 1 -> 2 @ (1.806e-10,-8.237e-13,3.815e-14,1.806e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 262 ( 32 -> 118) [( 1.5217e+02,-8.2777e-01, 4.8595e-02, 1.5217e+02), p^2= 5.6780e-01, m= 7.5353e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 264 ( 118 -> ) [( 1.4006e+02,-9.0668e-01,-3.4045e-03, 1.4005e+02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((152.2,-0.8278,0.04859,152.2)) * p_onshell ((153.2,-0.7926,0.0439,153.2)) Momentum conserved: (6.138e-10,-3.34e-12,1.961e-13,6.138e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 265) { Blob [128]( 119, Hadron Decay , 1 -> 0 @ (0.0009917,7.083e-06,4.34e-06,0.0009916), Sherpa Incoming particles : [D] 1 pi 265 ( 118 -> 119) [( 1.2276e+01, 8.7674e-02, 5.3717e-02, 1.2275e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((12.12,0.07891,0.052,12.12)) * p_onshell ((12.28,0.08767,0.05372,12.28)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 119, Hadron Decay , 1 -> 2 @ (0.0009917,7.083e-06,4.34e-06,0.0009916), Sherpa Incoming particles : [D] 2 pi 265 ( 118 -> 119) [( 1.2276e+01, 8.7674e-02, 5.3717e-02, 1.2275e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 266 ( 119 -> ) [( 8.3350e+00, 1.0096e-01, 8.3956e-02, 8.3340e+00), p^2= 9.2626e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 267 ( 119 -> ) [( 3.9412e+00,-1.3281e-02,-3.0239e-02, 3.9410e+00), p^2=-2.3722e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((12.12,0.07891,0.052,12.12)) * p_onshell ((12.28,0.08767,0.05372,12.28)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 119, Hadron Decay , 1 -> 2 @ (0.0009917,7.083e-06,4.34e-06,0.0009916), Sherpa Incoming particles : [D] 2 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 266 ( 119 -> ) [( 8.2238e+00, 9.5006e-02, 8.2781e-02, 8.2229e+00), p^2=-2.0513e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 267 ( 119 -> ) [( 3.8926e+00,-1.6091e-02,-3.0781e-02, 3.8924e+00), p^2=-1.7302e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((12.12,0.07891,0.052,12.12)) * p_onshell ((12.28,0.08767,0.05372,12.28))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 119, Hadron Decay , 1 -> 2 @ (0.0009917,7.083e-06,4.34e-06,0.0009916), Sherpa Incoming particles : [D] 2 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 266 ( 119 -> ) [( 8.2238e+00, 9.5006e-02, 8.2781e-02, 8.2229e+00), p^2=-2.0513e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 267 ( 119 -> ) [( 3.8926e+00,-1.6091e-02,-3.0781e-02, 3.8924e+00), p^2=-1.7302e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((12.12,0.07891,0.052,12.12)) * p_onshell ((12.28,0.08767,0.05372,12.28)) Momentum conserved: (-1.266e-12,-8.379e-15,-5.464e-15,-1.271e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 119, Hadron Decay , 1 -> 2 @ (0.0009917,7.083e-06,4.34e-06,0.0009916), Sherpa Incoming particles : [D] 2 pi 265 ( 118 -> 119) [( 1.2116e+01, 7.8915e-02, 5.1999e-02, 1.2115e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 266 ( 119 -> ) [( 8.2238e+00, 9.5006e-02, 8.2781e-02, 8.2229e+00), p^2=-2.0513e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 267 ( 119 -> ) [( 3.8926e+00,-1.6091e-02,-3.0781e-02, 3.8924e+00), p^2=-1.7302e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((12.12,0.07891,0.052,12.12)) * p_onshell ((12.28,0.08767,0.05372,12.28)) Momentum conserved: (-1.266e-12,-8.379e-15,-5.464e-15,-1.271e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 265") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+ 262") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of a(1)(1260) 100") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770)+ 154 ( 10 -> 33) [( 9.3572e+01, 2.6135e-01,-5.7979e-01,-9.3567e+01), p^2= 6.2103e-01, m= 7.8805e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770)+ 154) { Blob [128]( 33, Hadron Decay , 1 -> 0 @ (1.549e-10,4.328e-13,-9.6e-13,-1.549e-10), Sherpa Incoming particles : [P] 1 rho(770)+ 154 ( 10 -> 33) [( 9.3815e+01, 2.6203e-01,-5.8129e-01,-9.3809e+01), p^2= 5.9290e-01, m= 7.8805e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((93.57,0.2613,-0.5798,-93.57)) * p_onshell ((93.81,0.262,-0.5813,-93.81)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 33, Hadron Decay , 1 -> 2 @ (1.549e-10,4.328e-13,-9.6e-13,-1.549e-10), Sherpa Incoming particles : [P] 2 rho(770)+ 154 ( 10 -> 33) [( 9.3815e+01, 2.6203e-01,-5.8129e-01,-9.3809e+01), p^2= 5.9290e-01, m= 7.8805e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 268 ( 33 -> ) [( 4.7770e+01, 4.7686e-01,-1.8926e-01,-4.7767e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 269 ( 33 -> ) [( 4.6044e+01,-2.1483e-01,-3.9204e-01,-4.6042e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((93.57,0.2613,-0.5798,-93.57)) * p_onshell ((93.81,0.262,-0.5813,-93.81)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(46.04,-0.2148,-0.392,-46.04) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.7881 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.6485) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 33, Hadron Decay , 1 -> 2 @ (1.549e-10,4.328e-13,-9.6e-13,-1.549e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 154 ( 10 -> 33) [( 9.3572e+01, 2.6135e-01,-5.7979e-01,-9.3567e+01), p^2= 6.2103e-01, m= 7.8805e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 268 ( 33 -> ) [( 4.7627e+01, 4.8567e-01,-1.8551e-01,-4.7624e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((93.57,0.2613,-0.5798,-93.57)) * p_onshell ((93.81,0.262,-0.5813,-93.81))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+ -> pi+ pi) { Blob [128]( 33, Hadron Decay , 1 -> 2 @ (1.549e-10,4.328e-13,-9.6e-13,-1.549e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 154 ( 10 -> 33) [( 9.3572e+01, 2.6135e-01,-5.7979e-01,-9.3567e+01), p^2= 6.2103e-01, m= 7.8805e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 268 ( 33 -> ) [( 4.7627e+01, 4.8567e-01,-1.8551e-01,-4.7624e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((93.57,0.2613,-0.5798,-93.57)) * p_onshell ((93.81,0.262,-0.5813,-93.81)) Momentum conserved: (1.685e-10,4.709e-13,-1.044e-12,-1.686e-10) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+ -> pi+ pi ) { nbar: 0.02433 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 33, Hadron Decay , 1 -> 2 @ (1.549e-10,4.328e-13,-9.6e-13,-1.549e-10), Sherpa Incoming particles : [D] 2 rho(770)+ 154 ( 10 -> 33) [( 9.3572e+01, 2.6135e-01,-5.7979e-01,-9.3567e+01), p^2= 6.2103e-01, m= 7.8805e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 268 ( 33 -> ) [( 4.7627e+01, 4.8567e-01,-1.8551e-01,-4.7624e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((93.57,0.2613,-0.5798,-93.57)) * p_onshell ((93.81,0.262,-0.5813,-93.81)) Momentum conserved: (1.685e-10,4.709e-13,-1.044e-12,-1.686e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 269) { Blob [128]( 120, Hadron Decay , 1 -> 0 @ (0.001175,-5.481e-06,-1e-05,-0.001175), Sherpa Incoming particles : [D] 1 pi 269 ( 33 -> 120) [( 4.6044e+01,-2.1483e-01,-3.9204e-01,-4.6042e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((45.95,-0.2243,-0.3943,-45.94)) * p_onshell ((46.04,-0.2148,-0.392,-46.04)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 120, Hadron Decay , 1 -> 2 @ (0.001175,-5.481e-06,-1e-05,-0.001175), Sherpa Incoming particles : [D] 2 pi 269 ( 33 -> 120) [( 4.6044e+01,-2.1483e-01,-3.9204e-01,-4.6042e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 270 ( 120 -> ) [( 4.3444e+01,-1.7226e-01,-3.7657e-01,-4.3442e+01), p^2= 3.5250e-13, m= 0.0000e+00] ( 0, 0) [D] 1 P 271 ( 120 -> ) [( 2.6005e+00,-4.2565e-02,-1.5461e-02,-2.6001e+00), p^2= 3.9031e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((45.95,-0.2243,-0.3943,-45.94)) * p_onshell ((46.04,-0.2148,-0.392,-46.04)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 120, Hadron Decay , 1 -> 2 @ (0.001175,-5.481e-06,-1e-05,-0.001175), Sherpa Incoming particles : [D] 2 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 270 ( 120 -> ) [( 4.3348e+01,-1.8119e-01,-3.7867e-01,-4.3346e+01), p^2= 6.8853e-13, m= 0.0000e+00] ( 0, 0) [D] 1 P 271 ( 120 -> ) [( 2.5969e+00,-4.3124e-02,-1.5610e-02,-2.5965e+00), p^2=-2.1681e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((45.95,-0.2243,-0.3943,-45.94)) * p_onshell ((46.04,-0.2148,-0.392,-46.04))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 120, Hadron Decay , 1 -> 2 @ (0.001175,-5.481e-06,-1e-05,-0.001175), Sherpa Incoming particles : [D] 2 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 270 ( 120 -> ) [( 4.3348e+01,-1.8119e-01,-3.7867e-01,-4.3346e+01), p^2= 6.8853e-13, m= 0.0000e+00] ( 0, 0) [D] 1 P 271 ( 120 -> ) [( 2.5969e+00,-4.3124e-02,-1.5610e-02,-2.5965e+00), p^2=-2.1681e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((45.95,-0.2243,-0.3943,-45.94)) * p_onshell ((46.04,-0.2148,-0.392,-46.04)) Momentum conserved: (3.278e-10,-1.6e-12,-2.813e-12,-3.278e-10) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 120, Hadron Decay , 1 -> 2 @ (0.001175,-5.481e-06,-1e-05,-0.001175), Sherpa Incoming particles : [D] 2 pi 269 ( 33 -> 120) [( 4.5945e+01,-2.2432e-01,-3.9428e-01,-4.5943e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 270 ( 120 -> ) [( 4.3348e+01,-1.8119e-01,-3.7867e-01,-4.3346e+01), p^2= 6.8853e-13, m= 0.0000e+00] ( 0, 0) [D] 1 P 271 ( 120 -> ) [( 2.5969e+00,-4.3124e-02,-1.5610e-02,-2.5965e+00), p^2=-2.1681e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((45.95,-0.2243,-0.3943,-45.94)) * p_onshell ((46.04,-0.2148,-0.392,-46.04)) Momentum conserved: (3.278e-10,-1.6e-12,-2.813e-12,-3.278e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 269") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+ 154") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770)+b 65 ( 10 -> 34) [( 3.7692e+00, 6.5075e-01, 8.1137e-01, 3.5393e+00), p^2= 5.9834e-01, m= 7.7352e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770)+b 65) { Blob [128]( 34, Hadron Decay , 1 -> 0 @ (6.155e-12,1.063e-12,1.325e-12,5.781e-12), Sherpa Incoming particles : [P] 1 rho(770)+b 65 ( 10 -> 34) [( 3.7778e+00, 6.5246e-01, 8.1349e-01, 3.5484e+00), p^2= 5.9290e-01, m= 7.7352e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((3.769,0.6507,0.8114,3.539)) * p_onshell ((3.778,0.6525,0.8135,3.548)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 34, Hadron Decay , 1 -> 2 @ (6.155e-12,1.063e-12,1.325e-12,5.781e-12), Sherpa Incoming particles : [P] 2 rho(770)+b 65 ( 10 -> 34) [( 3.7778e+00, 6.5246e-01, 8.1349e-01, 3.5484e+00), p^2= 5.9290e-01, m= 7.7352e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 272 ( 34 -> ) [( 1.3621e+00, 3.4865e-01, 5.9639e-01, 1.1656e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 273 ( 34 -> ) [( 2.4157e+00, 3.0381e-01, 2.1710e-01, 2.3828e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((3.769,0.6507,0.8114,3.539)) * p_onshell ((3.778,0.6525,0.8135,3.548)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(2.416,0.3038,0.2171,2.383) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.7735 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.634) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 34, Hadron Decay , 1 -> 2 @ (6.155e-12,1.063e-12,1.325e-12,5.781e-12), Sherpa Incoming particles : [D] 2 rho(770)+b 65 ( 10 -> 34) [( 3.7692e+00, 6.5075e-01, 8.1137e-01, 3.5393e+00), p^2= 5.9834e-01, m= 7.7352e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 272 ( 34 -> ) [( 1.3609e+00, 3.4898e-01, 5.9773e-01, 1.1634e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((3.769,0.6507,0.8114,3.539)) * p_onshell ((3.778,0.6525,0.8135,3.548))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+b -> pi+b pi) { Blob [128]( 34, Hadron Decay , 1 -> 2 @ (6.155e-12,1.063e-12,1.325e-12,5.781e-12), Sherpa Incoming particles : [D] 2 rho(770)+b 65 ( 10 -> 34) [( 3.7692e+00, 6.5075e-01, 8.1137e-01, 3.5393e+00), p^2= 5.9834e-01, m= 7.7352e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 272 ( 34 -> ) [( 1.3609e+00, 3.4898e-01, 5.9773e-01, 1.1634e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((3.769,0.6507,0.8114,3.539)) * p_onshell ((3.778,0.6525,0.8135,3.548)) Momentum conserved: (1.11e-14,1.776e-15,2.054e-15,8.882e-15) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+b -> pi+b pi ) { nbar: 0.02374 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 34, Hadron Decay , 1 -> 2 @ (6.155e-12,1.063e-12,1.325e-12,5.781e-12), Sherpa Incoming particles : [D] 2 rho(770)+b 65 ( 10 -> 34) [( 3.7692e+00, 6.5075e-01, 8.1137e-01, 3.5393e+00), p^2= 5.9834e-01, m= 7.7352e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 272 ( 34 -> ) [( 1.3609e+00, 3.4898e-01, 5.9773e-01, 1.1634e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((3.769,0.6507,0.8114,3.539)) * p_onshell ((3.778,0.6525,0.8135,3.548)) Momentum conserved: (1.11e-14,1.776e-15,2.054e-15,8.882e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 273) { Blob [128]( 121, Hadron Decay , 1 -> 0 @ (4.667e-05,5.869e-06,4.194e-06,4.603e-05), Sherpa Incoming particles : [D] 1 pi 273 ( 34 -> 121) [( 2.4157e+00, 3.0381e-01, 2.1710e-01, 2.3828e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.408,0.3018,0.2136,2.376)) * p_onshell ((2.416,0.3038,0.2171,2.383)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 121, Hadron Decay , 1 -> 2 @ (4.667e-05,5.869e-06,4.194e-06,4.603e-05), Sherpa Incoming particles : [D] 2 pi 273 ( 34 -> 121) [( 2.4157e+00, 3.0381e-01, 2.1710e-01, 2.3828e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 274 ( 121 -> ) [( 7.5218e-01, 1.2566e-01, 1.3363e-02, 7.4149e-01), p^2= 7.3780e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 275 ( 121 -> ) [( 1.6635e+00, 1.7815e-01, 2.0373e-01, 1.6413e+00), p^2= 2.0123e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.408,0.3018,0.2136,2.376)) * p_onshell ((2.416,0.3038,0.2171,2.383)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 121, Hadron Decay , 1 -> 2 @ (4.667e-05,5.869e-06,4.194e-06,4.603e-05), Sherpa Incoming particles : [D] 2 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 274 ( 121 -> ) [( 7.5076e-01, 1.2511e-01, 1.2332e-02, 7.4016e-01), p^2= 3.0710e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 275 ( 121 -> ) [( 1.6576e+00, 1.7665e-01, 2.0131e-01, 1.6358e+00), p^2= 2.9143e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.408,0.3018,0.2136,2.376)) * p_onshell ((2.416,0.3038,0.2171,2.383))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 121, Hadron Decay , 1 -> 2 @ (4.667e-05,5.869e-06,4.194e-06,4.603e-05), Sherpa Incoming particles : [D] 2 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 274 ( 121 -> ) [( 7.5076e-01, 1.2511e-01, 1.2332e-02, 7.4016e-01), p^2= 3.0710e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 275 ( 121 -> ) [( 1.6576e+00, 1.7665e-01, 2.0131e-01, 1.6358e+00), p^2= 2.9143e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.408,0.3018,0.2136,2.376)) * p_onshell ((2.416,0.3038,0.2171,2.383)) Momentum conserved: (-9.37e-14,-1.174e-14,-8.216e-15,-9.237e-14) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 121, Hadron Decay , 1 -> 2 @ (4.667e-05,5.869e-06,4.194e-06,4.603e-05), Sherpa Incoming particles : [D] 2 pi 273 ( 34 -> 121) [( 2.4084e+00, 3.0176e-01, 2.1364e-01, 2.3760e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 274 ( 121 -> ) [( 7.5076e-01, 1.2511e-01, 1.2332e-02, 7.4016e-01), p^2= 3.0710e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 275 ( 121 -> ) [( 1.6576e+00, 1.7665e-01, 2.0131e-01, 1.6358e+00), p^2= 2.9143e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((2.408,0.3018,0.2136,2.376)) * p_onshell ((2.416,0.3038,0.2171,2.383)) Momentum conserved: (-9.37e-14,-1.174e-14,-8.216e-15,-9.237e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 273") } Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+b 65") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)+b 111 ( 10 -> 35) [( 3.4444e+01, 7.1903e-01,-5.7430e-01,-3.4410e+01), p^2= 1.5012e+00, m= 1.2252e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)+b 111) { Blob [128]( 35, Hadron Decay , 1 -> 0 @ (2.366e-11,4.94e-13,-3.945e-13,-2.364e-11), Sherpa Incoming particles : [P] 1 Delta(1232)+b 111 ( 10 -> 35) [( 3.4533e+01, 7.2089e-01,-5.7579e-01,-3.4499e+01), p^2= 1.5178e+00, m= 1.2252e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((34.44,0.719,-0.5743,-34.41)) * p_onshell ((34.53,0.7209,-0.5758,-34.5)) Decay_Handler_Base::FillOnshellDecay() { 2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV Blob [128]( 35, Hadron Decay , 1 -> 2 @ (2.366e-11,4.94e-13,-3.945e-13,-2.364e-11), Sherpa Incoming particles : [P] 2 Delta(1232)+b 111 ( 10 -> 35) [( 3.4533e+01, 7.2089e-01,-5.7579e-01,-3.4499e+01), p^2= 1.5178e+00, m= 1.2252e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 276 ( 35 -> ) [( 2.1132e+01, 3.5414e-01,-3.4516e-01,-2.1105e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 277 ( 35 -> ) [( 1.3401e+01, 3.6675e-01,-2.3062e-01,-1.3394e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((34.44,0.719,-0.5743,-34.41)) * p_onshell ((34.53,0.7209,-0.5758,-34.5)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(13.4,0.3667,-0.2306,-13.39) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.225 > m[P+b]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.287) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 35, Hadron Decay , 1 -> 2 @ (2.366e-11,4.94e-13,-3.945e-13,-2.364e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 111 ( 10 -> 35) [( 3.4444e+01, 7.1903e-01,-5.7430e-01,-3.4410e+01), p^2= 1.5012e+00, m= 1.2252e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 276 ( 35 -> ) [( 2.1309e+01, 3.6060e-01,-3.4835e-01,-2.1282e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((34.44,0.719,-0.5743,-34.41)) * p_onshell ((34.53,0.7209,-0.5758,-34.5))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)+b -> P+b pi) { Blob [128]( 35, Hadron Decay , 1 -> 2 @ (2.366e-11,4.94e-13,-3.945e-13,-2.364e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 111 ( 10 -> 35) [( 3.4444e+01, 7.1903e-01,-5.7430e-01,-3.4410e+01), p^2= 1.5012e+00, m= 1.2252e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 276 ( 35 -> ) [( 2.1309e+01, 3.6060e-01,-3.4835e-01,-2.1282e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((34.44,0.719,-0.5743,-34.41)) * p_onshell ((34.53,0.7209,-0.5758,-34.5)) Momentum conserved: (4.592e-12,9.603e-14,-7.674e-14,-4.597e-12) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Delta(1232)+b -> P+b pi ) { nbar: 0.0004526 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 35, Hadron Decay , 1 -> 2 @ (2.366e-11,4.94e-13,-3.945e-13,-2.364e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 111 ( 10 -> 35) [( 3.4444e+01, 7.1903e-01,-5.7430e-01,-3.4410e+01), p^2= 1.5012e+00, m= 1.2252e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 276 ( 35 -> ) [( 2.1309e+01, 3.6060e-01,-3.4835e-01,-2.1282e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((34.44,0.719,-0.5743,-34.41)) * p_onshell ((34.53,0.7209,-0.5758,-34.5)) Momentum conserved: (4.592e-12,9.603e-14,-7.674e-14,-4.597e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 277) { Blob [128]( 122, Hadron Decay , 1 -> 0 @ (0.0005468,1.496e-05,-9.41e-06,-0.0005465), Sherpa Incoming particles : [D] 1 pi 277 ( 35 -> 122) [( 1.3401e+01, 3.6675e-01,-2.3062e-01,-1.3394e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.13,0.3584,-0.226,-13.13)) * p_onshell ((13.4,0.3667,-0.2306,-13.39)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 122, Hadron Decay , 1 -> 2 @ (0.0005468,1.496e-05,-9.41e-06,-0.0005465), Sherpa Incoming particles : [D] 2 pi 277 ( 35 -> 122) [( 1.3401e+01, 3.6675e-01,-2.3062e-01,-1.3394e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 278 ( 122 -> ) [( 2.7472e-01, 7.0297e-03,-2.3823e-02,-2.7359e-01), p^2= 1.8106e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 279 ( 122 -> ) [( 1.3127e+01, 3.5972e-01,-2.0680e-01,-1.3120e+01), p^2= 1.0048e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.13,0.3584,-0.226,-13.13)) * p_onshell ((13.4,0.3667,-0.2306,-13.39)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 122, Hadron Decay , 1 -> 2 @ (0.0005468,1.496e-05,-9.41e-06,-0.0005465), Sherpa Incoming particles : [D] 2 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 278 ( 122 -> ) [( 2.6925e-01, 6.8541e-03,-2.3727e-02,-2.6812e-01), p^2=-2.6021e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 279 ( 122 -> ) [( 1.2865e+01, 3.5158e-01,-2.0222e-01,-1.2859e+01), p^2= 3.5201e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.13,0.3584,-0.226,-13.13)) * p_onshell ((13.4,0.3667,-0.2306,-13.39))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 122, Hadron Decay , 1 -> 2 @ (0.0005468,1.496e-05,-9.41e-06,-0.0005465), Sherpa Incoming particles : [D] 2 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 278 ( 122 -> ) [( 2.6925e-01, 6.8541e-03,-2.3727e-02,-2.6812e-01), p^2=-2.6021e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 279 ( 122 -> ) [( 1.2865e+01, 3.5158e-01,-2.0222e-01,-1.2859e+01), p^2= 3.5201e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.13,0.3584,-0.226,-13.13)) * p_onshell ((13.4,0.3667,-0.2306,-13.39)) Momentum conserved: (-1.291e-11,-3.522e-13,2.221e-13,1.29e-11) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 122, Hadron Decay , 1 -> 2 @ (0.0005468,1.496e-05,-9.41e-06,-0.0005465), Sherpa Incoming particles : [D] 2 pi 277 ( 35 -> 122) [( 1.3135e+01, 3.5843e-01,-2.2595e-01,-1.3127e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 278 ( 122 -> ) [( 2.6925e-01, 6.8541e-03,-2.3727e-02,-2.6812e-01), p^2=-2.6021e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 279 ( 122 -> ) [( 1.2865e+01, 3.5158e-01,-2.0222e-01,-1.2859e+01), p^2= 3.5201e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((13.13,0.3584,-0.226,-13.13)) * p_onshell ((13.4,0.3667,-0.2306,-13.39)) Momentum conserved: (-1.291e-11,-3.522e-13,2.221e-13,1.29e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 277") } 303:daughters[i]->Flav()=P+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)+b 111") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 P+ 105 ( 10 -> ) [( 6.0738e+00,-4.6783e+00,-3.2424e-01, 3.7442e+00), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)+b 146 ( 10 -> 36) [( 8.6645e+01,-1.1014e+00,-5.3913e-02, 8.6630e+01), p^2= 1.3897e+00, m= 1.1789e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)+b 146) { Blob [128]( 36, Hadron Decay , 1 -> 0 @ (6.394e-11,-8.128e-13,-3.979e-14,6.393e-11), Sherpa Incoming particles : [P] 1 Delta(1232)+b 146 ( 10 -> 36) [( 8.6870e+01,-1.1042e+00,-5.4064e-02, 8.6854e+01), p^2= 1.5178e+00, m= 1.1789e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((86.64,-1.101,-0.05391,86.63)) * p_onshell ((86.87,-1.104,-0.05406,86.85)) Decay_Handler_Base::FillOnshellDecay() { 2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV Blob [128]( 36, Hadron Decay , 1 -> 2 @ (6.394e-11,-8.128e-13,-3.979e-14,6.393e-11), Sherpa Incoming particles : [P] 2 Delta(1232)+b 146 ( 10 -> 36) [( 8.6870e+01,-1.1042e+00,-5.4064e-02, 8.6854e+01), p^2= 1.5178e+00, m= 1.1789e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 280 ( 36 -> ) [( 5.7298e+01,-8.0717e-01,-1.8689e-01, 5.7284e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 281 ( 36 -> ) [( 2.9572e+01,-2.9706e-01, 1.3283e-01, 2.9570e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((86.64,-1.101,-0.05391,86.63)) * p_onshell ((86.87,-1.104,-0.05406,86.85)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(29.57,-0.2971,0.1328,29.57) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.179 > m[P+b]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.2406) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 36, Hadron Decay , 1 -> 2 @ (6.394e-11,-8.128e-13,-3.979e-14,6.393e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 146 ( 10 -> 36) [( 8.6645e+01,-1.1014e+00,-5.3913e-02, 8.6630e+01), p^2= 1.3897e+00, m= 1.1789e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 280 ( 36 -> ) [( 6.1218e+01,-8.3828e-01,-1.5344e-01, 6.1205e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((86.64,-1.101,-0.05391,86.63)) * p_onshell ((86.87,-1.104,-0.05406,86.85))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)+b -> P+b pi) { Blob [128]( 36, Hadron Decay , 1 -> 2 @ (6.394e-11,-8.128e-13,-3.979e-14,6.393e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 146 ( 10 -> 36) [( 8.6645e+01,-1.1014e+00,-5.3913e-02, 8.6630e+01), p^2= 1.3897e+00, m= 1.1789e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 280 ( 36 -> ) [( 6.1218e+01,-8.3828e-01,-1.5344e-01, 6.1205e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((86.64,-1.101,-0.05391,86.63)) * p_onshell ((86.87,-1.104,-0.05406,86.85)) Momentum conserved: (4.241e-11,-5.391e-13,-2.638e-14,4.238e-11) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Delta(1232)+b -> P+b pi ) { nbar: 0.0002714 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 36, Hadron Decay , 1 -> 2 @ (6.394e-11,-8.128e-13,-3.979e-14,6.393e-11), Sherpa Incoming particles : [D] 2 Delta(1232)+b 146 ( 10 -> 36) [( 8.6645e+01,-1.1014e+00,-5.3913e-02, 8.6630e+01), p^2= 1.3897e+00, m= 1.1789e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 280 ( 36 -> ) [( 6.1218e+01,-8.3828e-01,-1.5344e-01, 6.1205e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((86.64,-1.101,-0.05391,86.63)) * p_onshell ((86.87,-1.104,-0.05406,86.85)) Momentum conserved: (4.241e-11,-5.391e-13,-2.638e-14,4.238e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 281) { Blob [128]( 123, Hadron Decay , 1 -> 0 @ (0.006924,-6.955e-05,3.11e-05,0.006924), Sherpa Incoming particles : [D] 1 pi 281 ( 36 -> 123) [( 2.9572e+01,-2.9706e-01, 1.3283e-01, 2.9570e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((25.43,-0.2631,0.09953,25.43)) * p_onshell ((29.57,-0.2971,0.1328,29.57)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 123, Hadron Decay , 1 -> 2 @ (0.006924,-6.955e-05,3.11e-05,0.006924), Sherpa Incoming particles : [D] 2 pi 281 ( 36 -> 123) [( 2.9572e+01,-2.9706e-01, 1.3283e-01, 2.9570e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 282 ( 123 -> ) [( 6.7033e+00,-6.2917e-02,-2.6229e-02, 6.7030e+00), p^2=-1.8168e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 283 ( 123 -> ) [( 2.2869e+01,-2.3414e-01, 1.5906e-01, 2.2867e+01), p^2= 1.2919e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((25.43,-0.2631,0.09953,25.43)) * p_onshell ((29.57,-0.2971,0.1328,29.57)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 123, Hadron Decay , 1 -> 2 @ (0.006924,-6.955e-05,3.11e-05,0.006924), Sherpa Incoming particles : [D] 2 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 282 ( 123 -> ) [( 5.7697e+00,-5.5285e-02,-3.3777e-02, 5.7693e+00), p^2= 1.6760e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 283 ( 123 -> ) [( 1.9657e+01,-2.0779e-01, 1.3330e-01, 1.9656e+01), p^2= 1.0257e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((25.43,-0.2631,0.09953,25.43)) * p_onshell ((29.57,-0.2971,0.1328,29.57))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 123, Hadron Decay , 1 -> 2 @ (0.006924,-6.955e-05,3.11e-05,0.006924), Sherpa Incoming particles : [D] 2 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 282 ( 123 -> ) [( 5.7697e+00,-5.5285e-02,-3.3777e-02, 5.7693e+00), p^2= 1.6760e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 283 ( 123 -> ) [( 1.9657e+01,-2.0779e-01, 1.3330e-01, 1.9656e+01), p^2= 1.0257e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((25.43,-0.2631,0.09953,25.43)) * p_onshell ((29.57,-0.2971,0.1328,29.57)) Momentum conserved: (1.078e-10,-1.115e-12,4.226e-13,1.078e-10) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 123, Hadron Decay , 1 -> 2 @ (0.006924,-6.955e-05,3.11e-05,0.006924), Sherpa Incoming particles : [D] 2 pi 281 ( 36 -> 123) [( 2.5427e+01,-2.6307e-01, 9.9526e-02, 2.5425e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 282 ( 123 -> ) [( 5.7697e+00,-5.5285e-02,-3.3777e-02, 5.7693e+00), p^2= 1.6760e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 283 ( 123 -> ) [( 1.9657e+01,-2.0779e-01, 1.3330e-01, 1.9656e+01), p^2= 1.0257e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((25.43,-0.2631,0.09953,25.43)) * p_onshell ((29.57,-0.2971,0.1328,29.57)) Momentum conserved: (1.078e-10,-1.115e-12,4.226e-13,1.078e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 281") } 303:daughters[i]->Flav()=P+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)+b 146") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi 142 ( 10 -> 37) [( 1.8300e+01,-6.8414e-02, 4.6784e-01,-1.8293e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(pi 142) { Blob [128]( 37, Hadron Decay , 1 -> 0 @ (0.003329,-1.244e-05,8.51e-05,-0.003328), Sherpa Incoming particles : [P] 1 pi 142 ( 10 -> 37) [( 1.8347e+01,-6.8591e-02, 4.6905e-01,-1.8341e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((18.3,-0.06841,0.4678,-18.29)) * p_onshell ((18.35,-0.06859,0.469,-18.34)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 37, Hadron Decay , 1 -> 2 @ (0.003329,-1.244e-05,8.51e-05,-0.003328), Sherpa Incoming particles : [P] 2 pi 142 ( 10 -> 37) [( 1.8347e+01,-6.8591e-02, 4.6905e-01,-1.8341e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 284 ( 37 -> ) [( 1.0647e+01, 2.6214e-02, 2.8107e-01,-1.0643e+01), p^2= 2.3578e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 285 ( 37 -> ) [( 7.7003e+00,-9.4805e-02, 1.8798e-01,-7.6974e+00), p^2= 5.0376e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((18.3,-0.06841,0.4678,-18.29)) * p_onshell ((18.35,-0.06859,0.469,-18.34)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 37, Hadron Decay , 1 -> 2 @ (0.003329,-1.244e-05,8.51e-05,-0.003328), Sherpa Incoming particles : [D] 2 pi 142 ( 10 -> 37) [( 1.8300e+01,-6.8414e-02, 4.6784e-01,-1.8293e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 284 ( 37 -> ) [( 1.0619e+01, 2.6317e-02, 2.8037e-01,-1.0616e+01), p^2= 2.8172e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 285 ( 37 -> ) [( 7.6804e+00,-9.4730e-02, 1.8747e-01,-7.6775e+00), p^2=-1.2906e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((18.3,-0.06841,0.4678,-18.29)) * p_onshell ((18.35,-0.06859,0.469,-18.34))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 37, Hadron Decay , 1 -> 2 @ (0.003329,-1.244e-05,8.51e-05,-0.003328), Sherpa Incoming particles : [D] 2 pi 142 ( 10 -> 37) [( 1.8300e+01,-6.8414e-02, 4.6784e-01,-1.8293e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 284 ( 37 -> ) [( 1.0619e+01, 2.6317e-02, 2.8037e-01,-1.0616e+01), p^2= 2.8172e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 285 ( 37 -> ) [( 7.6804e+00,-9.4730e-02, 1.8747e-01,-7.6775e+00), p^2=-1.2906e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((18.3,-0.06841,0.4678,-18.29)) * p_onshell ((18.35,-0.06859,0.469,-18.34)) Momentum conserved: (1.291e-11,-4.824e-14,3.3e-13,-1.291e-11) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 37, Hadron Decay , 1 -> 2 @ (0.003329,-1.244e-05,8.51e-05,-0.003328), Sherpa Incoming particles : [D] 2 pi 142 ( 10 -> 37) [( 1.8300e+01,-6.8414e-02, 4.6784e-01,-1.8293e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 284 ( 37 -> ) [( 1.0619e+01, 2.6317e-02, 2.8037e-01,-1.0616e+01), p^2= 2.8172e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 285 ( 37 -> ) [( 7.6804e+00,-9.4730e-02, 1.8747e-01,-7.6775e+00), p^2=-1.2906e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((18.3,-0.06841,0.4678,-18.29)) * p_onshell ((18.35,-0.06859,0.469,-18.34)) Momentum conserved: (1.291e-11,-4.824e-14,3.3e-13,-1.291e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 142") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 88 ( 10 -> ) [( 2.3842e-01, 1.9294e-01, 7.4657e-03, 9.0927e-03), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770) 78 ( 10 -> 38) [( 7.4622e+00, 2.3095e+00,-2.0514e+00, 6.7440e+00), p^2= 6.6057e-01, m= 8.1275e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770) 78) { Blob [128]( 38, Hadron Decay , 1 -> 0 @ (1.003e-12,3.107e-13,-2.76e-13,9.073e-13), Sherpa Incoming particles : [P] 1 rho(770) 78 ( 10 -> 38) [( 7.4765e+00, 2.3156e+00,-2.0566e+00, 6.7612e+00), p^2= 5.9290e-01, m= 8.1275e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((7.462,2.31,-2.051,6.744)) * p_onshell ((7.477,2.316,-2.057,6.761)) Decay_Handler_Base::FillOnshellDecay() { 113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV Blob [128]( 38, Hadron Decay , 1 -> 2 @ (1.003e-12,3.107e-13,-2.76e-13,9.073e-13), Sherpa Incoming particles : [P] 2 rho(770) 78 ( 10 -> 38) [( 7.4765e+00, 2.3156e+00,-2.0566e+00, 6.7612e+00), p^2= 5.9290e-01, m= 8.1275e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 286 ( 38 -> ) [( 6.2783e+00, 1.7788e+00,-1.9054e+00, 5.7099e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 287 ( 38 -> ) [( 1.1982e+00, 5.3678e-01,-1.5121e-01, 1.0513e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((7.462,2.31,-2.051,6.744)) * p_onshell ((7.477,2.316,-2.057,6.761)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.8128 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6732 > m[pi+b]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.001 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 38, Hadron Decay , 1 -> 2 @ (1.003e-12,3.107e-13,-2.76e-13,9.073e-13), Sherpa Incoming particles : [D] 2 rho(770) 78 ( 10 -> 38) [( 7.4622e+00, 2.3095e+00,-2.0514e+00, 6.7440e+00), p^2= 6.6057e-01, m= 8.1275e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 286 ( 38 -> ) [( 6.2202e+00, 1.7439e+00,-1.9051e+00, 5.6569e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 287 ( 38 -> ) [( 1.2420e+00, 5.6561e-01,-1.4629e-01, 1.0871e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((7.462,2.31,-2.051,6.744)) * p_onshell ((7.477,2.316,-2.057,6.761))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770) -> pi+ pi+b) { Blob [128]( 38, Hadron Decay , 1 -> 2 @ (1.003e-12,3.107e-13,-2.76e-13,9.073e-13), Sherpa Incoming particles : [D] 2 rho(770) 78 ( 10 -> 38) [( 7.4622e+00, 2.3095e+00,-2.0514e+00, 6.7440e+00), p^2= 6.6057e-01, m= 8.1275e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 286 ( 38 -> ) [( 6.2202e+00, 1.7439e+00,-1.9051e+00, 5.6569e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 287 ( 38 -> ) [( 1.2420e+00, 5.6561e-01,-1.4629e-01, 1.0871e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((7.462,2.31,-2.051,6.744)) * p_onshell ((7.477,2.316,-2.057,6.761)) Momentum conserved: (7.683e-14,2.387e-14,-2.165e-14,7.017e-14) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( rho(770) -> pi+ pi+b ) { nbar: 0.08481 n: 0 -> accept } Blob [0]( 38, Hadron Decay , 1 -> 2 @ (1.003e-12,3.107e-13,-2.76e-13,9.073e-13), Sherpa Incoming particles : [D] 2 rho(770) 78 ( 10 -> 38) [( 7.4622e+00, 2.3095e+00,-2.0514e+00, 6.7440e+00), p^2= 6.6057e-01, m= 8.1275e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 286 ( 38 -> ) [( 6.2202e+00, 1.7439e+00,-1.9051e+00, 5.6569e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 287 ( 38 -> ) [( 1.2420e+00, 5.6561e-01,-1.4629e-01, 1.0871e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((7.462,2.31,-2.051,6.744)) * p_onshell ((7.477,2.316,-2.057,6.761)) Momentum conserved: (7.683e-14,2.387e-14,-2.165e-14,7.017e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770) 78") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770)+b 82 ( 10 -> 39) [( 1.7262e+00, 8.0005e-01,-2.0388e-01,-1.3229e+00), p^2= 5.4792e-01, m= 7.4022e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770)+b 82) { Blob [128]( 39, Hadron Decay , 1 -> 0 @ (2.418e-11,1.113e-11,-2.84e-12,-1.84e-11), Sherpa Incoming particles : [P] 1 rho(770)+b 82 ( 10 -> 39) [( 1.7422e+00, 8.0186e-01,-2.0459e-01,-1.3257e+00), p^2= 5.9290e-01, m= 7.4022e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.726,0.8001,-0.2039,-1.323)) * p_onshell ((1.742,0.8019,-0.2046,-1.326)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 39, Hadron Decay , 1 -> 2 @ (2.418e-11,1.113e-11,-2.84e-12,-1.84e-11), Sherpa Incoming particles : [P] 2 rho(770)+b 82 ( 10 -> 39) [( 1.7422e+00, 8.0186e-01,-2.0459e-01,-1.3257e+00), p^2= 5.9290e-01, m= 7.4022e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 288 ( 39 -> ) [( 9.4560e-01, 1.4830e-01,-2.3850e-01,-8.9208e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 289 ( 39 -> ) [( 7.9655e-01, 6.5356e-01, 3.3918e-02,-4.3358e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.726,0.8001,-0.2039,-1.323)) * p_onshell ((1.742,0.8019,-0.2046,-1.326)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.7966,0.6536,0.03392,-0.4336) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.7402 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.6006) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9926 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 39, Hadron Decay , 1 -> 2 @ (2.418e-11,1.113e-11,-2.84e-12,-1.84e-11), Sherpa Incoming particles : [D] 2 rho(770)+b 82 ( 10 -> 39) [( 1.7262e+00, 8.0005e-01,-2.0388e-01,-1.3229e+00), p^2= 5.4792e-01, m= 7.4022e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 288 ( 39 -> ) [( 9.3949e-01, 1.6136e-01,-2.3273e-01,-8.8485e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.726,0.8001,-0.2039,-1.323)) * p_onshell ((1.742,0.8019,-0.2046,-1.326))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+b -> pi+b pi) { Blob [128]( 39, Hadron Decay , 1 -> 2 @ (2.418e-11,1.113e-11,-2.84e-12,-1.84e-11), Sherpa Incoming particles : [D] 2 rho(770)+b 82 ( 10 -> 39) [( 1.7262e+00, 8.0005e-01,-2.0388e-01,-1.3229e+00), p^2= 5.4792e-01, m= 7.4022e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 288 ( 39 -> ) [( 9.3949e-01, 1.6136e-01,-2.3273e-01,-8.8485e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.726,0.8001,-0.2039,-1.323)) * p_onshell ((1.742,0.8019,-0.2046,-1.326)) Momentum conserved: (-2.22e-16,-1.11e-16,1.388e-17,3.331e-16) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+b -> pi+b pi ) { nbar: 0.02238 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 39, Hadron Decay , 1 -> 2 @ (2.418e-11,1.113e-11,-2.84e-12,-1.84e-11), Sherpa Incoming particles : [D] 2 rho(770)+b 82 ( 10 -> 39) [( 1.7262e+00, 8.0005e-01,-2.0388e-01,-1.3229e+00), p^2= 5.4792e-01, m= 7.4022e-01] ( 0, 0) Outgoing particles : [D] 1 pi+b 288 ( 39 -> ) [( 9.3949e-01, 1.6136e-01,-2.3273e-01,-8.8485e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.726,0.8001,-0.2039,-1.323)) * p_onshell ((1.742,0.8019,-0.2046,-1.326)) Momentum conserved: (-2.22e-16,-1.11e-16,1.388e-17,3.331e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 289) { Blob [128]( 124, Hadron Decay , 1 -> 0 @ (0.0004898,0.0004019,2.086e-05,-0.0002666), Sherpa Incoming particles : [D] 1 pi 289 ( 39 -> 124) [( 7.9655e-01, 6.5356e-01, 3.3918e-02,-4.3358e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7867,0.6387,0.02884,-0.4381)) * p_onshell ((0.7966,0.6536,0.03392,-0.4336)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 124, Hadron Decay , 1 -> 2 @ (0.0004898,0.0004019,2.086e-05,-0.0002666), Sherpa Incoming particles : [D] 2 pi 289 ( 39 -> 124) [( 7.9655e-01, 6.5356e-01, 3.3918e-02,-4.3358e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 290 ( 124 -> ) [( 2.9575e-01, 2.6773e-01, 5.1156e-02,-1.1475e-01), p^2= 1.4745e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 291 ( 124 -> ) [( 5.0081e-01, 3.8583e-01,-1.7238e-02,-3.1882e-01), p^2=-3.5399e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7867,0.6387,0.02884,-0.4381)) * p_onshell ((0.7966,0.6536,0.03392,-0.4336)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 124, Hadron Decay , 1 -> 2 @ (0.0004898,0.0004019,2.086e-05,-0.0002666), Sherpa Incoming particles : [D] 2 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 290 ( 124 -> ) [( 2.8616e-01, 2.5796e-01, 4.8997e-02,-1.1378e-01), p^2=-5.6379e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 291 ( 124 -> ) [( 5.0053e-01, 3.8073e-01,-2.0154e-02,-3.2429e-01), p^2= 1.7456e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7867,0.6387,0.02884,-0.4381)) * p_onshell ((0.7966,0.6536,0.03392,-0.4336))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 124, Hadron Decay , 1 -> 2 @ (0.0004898,0.0004019,2.086e-05,-0.0002666), Sherpa Incoming particles : [D] 2 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 290 ( 124 -> ) [( 2.8616e-01, 2.5796e-01, 4.8997e-02,-1.1378e-01), p^2=-5.6379e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 291 ( 124 -> ) [( 5.0053e-01, 3.8073e-01,-2.0154e-02,-3.2429e-01), p^2= 1.7456e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7867,0.6387,0.02884,-0.4381)) * p_onshell ((0.7966,0.6536,0.03392,-0.4336)) Momentum conserved: (2.554e-15,2.165e-15,8.327e-17,-1.388e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 124, Hadron Decay , 1 -> 2 @ (0.0004898,0.0004019,2.086e-05,-0.0002666), Sherpa Incoming particles : [D] 2 pi 289 ( 39 -> 124) [( 7.8669e-01, 6.3869e-01, 2.8843e-02,-4.3807e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 290 ( 124 -> ) [( 2.8616e-01, 2.5796e-01, 4.8997e-02,-1.1378e-01), p^2=-5.6379e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 291 ( 124 -> ) [( 5.0053e-01, 3.8073e-01,-2.0154e-02,-3.2429e-01), p^2= 1.7456e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7867,0.6387,0.02884,-0.4381)) * p_onshell ((0.7966,0.6536,0.03392,-0.4336)) Momentum conserved: (2.554e-15,2.165e-15,8.327e-17,-1.388e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 289") } Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+b 82") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 nb 94 ( 10 -> ) [( 6.5146e+00,-5.0488e-01,-4.1581e-01,-6.4132e+00), p^2= 8.8278e-01, m= 9.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770) 129 ( 10 -> 40) [( 8.6467e+00, 2.5955e-01, 2.3964e-01,-8.6301e+00), p^2= 1.6217e-01, m= 4.0271e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770) 129) { Blob [128]( 40, Hadron Decay , 1 -> 0 @ (3.744e-13,1.118e-14,1.033e-14,-3.726e-13), Sherpa Incoming particles : [P] 1 rho(770) 129 ( 10 -> 40) [( 8.6925e+00, 2.5969e-01, 2.3991e-01,-8.6511e+00), p^2= 5.9290e-01, m= 4.0271e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((8.647,0.2596,0.2396,-8.63)) * p_onshell ((8.692,0.2597,0.2399,-8.651)) Decay_Handler_Base::FillOnshellDecay() { 113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV Blob [128]( 40, Hadron Decay , 1 -> 2 @ (3.744e-13,1.118e-14,1.033e-14,-3.726e-13), Sherpa Incoming particles : [P] 2 rho(770) 129 ( 10 -> 40) [( 8.6925e+00, 2.5969e-01, 2.3991e-01,-8.6511e+00), p^2= 5.9290e-01, m= 4.0271e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 292 ( 40 -> ) [( 6.0928e-01, 5.9140e-02, 1.4455e-01,-5.7214e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 293 ( 40 -> ) [( 8.0832e+00, 2.0055e-01, 9.5351e-02,-8.0790e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((8.647,0.2596,0.2396,-8.63)) * p_onshell ((8.692,0.2597,0.2399,-8.651)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.4027 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.2631 > m[pi+b]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9971 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 40, Hadron Decay , 1 -> 2 @ (3.744e-13,1.118e-14,1.033e-14,-3.726e-13), Sherpa Incoming particles : [D] 2 rho(770) 129 ( 10 -> 40) [( 8.6467e+00, 2.5955e-01, 2.3964e-01,-8.6301e+00), p^2= 1.6217e-01, m= 4.0271e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 292 ( 40 -> ) [( 1.2792e+00, 4.7574e-02, 6.4069e-02,-1.2690e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 293 ( 40 -> ) [( 7.3676e+00, 2.1198e-01, 1.7557e-01,-7.3611e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((8.647,0.2596,0.2396,-8.63)) * p_onshell ((8.692,0.2597,0.2399,-8.651))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770) -> pi+ pi+b) { Blob [128]( 40, Hadron Decay , 1 -> 2 @ (3.744e-13,1.118e-14,1.033e-14,-3.726e-13), Sherpa Incoming particles : [D] 2 rho(770) 129 ( 10 -> 40) [( 8.6467e+00, 2.5955e-01, 2.3964e-01,-8.6301e+00), p^2= 1.6217e-01, m= 4.0271e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 292 ( 40 -> ) [( 1.2792e+00, 4.7574e-02, 6.4069e-02,-1.2690e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 293 ( 40 -> ) [( 7.3676e+00, 2.1198e-01, 1.7557e-01,-7.3611e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((8.647,0.2596,0.2396,-8.63)) * p_onshell ((8.692,0.2597,0.2399,-8.651)) Momentum conserved: (8.109e-13,2.431e-14,2.245e-14,-8.074e-13) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( rho(770) -> pi+ pi+b ) { nbar: 0.02274 n: 0 -> accept } Blob [0]( 40, Hadron Decay , 1 -> 2 @ (3.744e-13,1.118e-14,1.033e-14,-3.726e-13), Sherpa Incoming particles : [D] 2 rho(770) 129 ( 10 -> 40) [( 8.6467e+00, 2.5955e-01, 2.3964e-01,-8.6301e+00), p^2= 1.6217e-01, m= 4.0271e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 292 ( 40 -> ) [( 1.2792e+00, 4.7574e-02, 6.4069e-02,-1.2690e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 293 ( 40 -> ) [( 7.3676e+00, 2.1198e-01, 1.7557e-01,-7.3611e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((8.647,0.2596,0.2396,-8.63)) * p_onshell ((8.692,0.2597,0.2399,-8.651)) Momentum conserved: (8.109e-13,2.431e-14,2.245e-14,-8.074e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770) 129") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770)+ 93 ( 10 -> 41) [( 1.0077e+00,-1.1918e-01, 1.9323e-01, 4.8381e-01), p^2= 7.2980e-01, m= 8.5428e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770)+ 93) { Blob [128]( 41, Hadron Decay , 1 -> 0 @ (4.713e-12,-5.931e-13,9.813e-13,2.42e-12), Sherpa Incoming particles : [P] 1 rho(770)+ 93 ( 10 -> 41) [( 9.3580e-01,-1.1778e-01, 1.9486e-01, 4.8060e-01), p^2= 5.9290e-01, m= 8.5428e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.008,-0.1192,0.1932,0.4838)) * p_onshell ((0.9358,-0.1178,0.1949,0.4806)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 41, Hadron Decay , 1 -> 2 @ (4.713e-12,-5.931e-13,9.813e-13,2.42e-12), Sherpa Incoming particles : [P] 2 rho(770)+ 93 ( 10 -> 41) [( 9.3580e-01,-1.1778e-01, 1.9486e-01, 4.8060e-01), p^2= 5.9290e-01, m= 8.5428e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 294 ( 41 -> ) [( 3.9863e-01,-2.3163e-01,-2.2183e-01, 1.9122e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 295 ( 41 -> ) [( 5.3717e-01, 1.1385e-01, 4.1669e-01, 2.8937e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.008,-0.1192,0.1932,0.4838)) * p_onshell ((0.9358,-0.1178,0.1949,0.4806)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.5372,0.1139,0.4167,0.2894) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.8543 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.7147) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.075 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 41, Hadron Decay , 1 -> 2 @ (4.713e-12,-5.931e-13,9.813e-13,2.42e-12), Sherpa Incoming particles : [D] 2 rho(770)+ 93 ( 10 -> 41) [( 1.0077e+00,-1.1918e-01, 1.9323e-01, 4.8381e-01), p^2= 7.2980e-01, m= 8.5428e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 294 ( 41 -> ) [( 4.3640e-01,-2.5615e-01,-2.6008e-01, 1.9418e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.008,-0.1192,0.1932,0.4838)) * p_onshell ((0.9358,-0.1178,0.1949,0.4806))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+ -> pi+ pi) { Blob [128]( 41, Hadron Decay , 1 -> 2 @ (4.713e-12,-5.931e-13,9.813e-13,2.42e-12), Sherpa Incoming particles : [D] 2 rho(770)+ 93 ( 10 -> 41) [( 1.0077e+00,-1.1918e-01, 1.9323e-01, 4.8381e-01), p^2= 7.2980e-01, m= 8.5428e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 294 ( 41 -> ) [( 4.3640e-01,-2.5615e-01,-2.6008e-01, 1.9418e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.008,-0.1192,0.1932,0.4838)) * p_onshell ((0.9358,-0.1178,0.1949,0.4806)) Momentum conserved: (-2.22e-16,0,-1.11e-16,-1.11e-16) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+ -> pi+ pi ) { nbar: 0.02692 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 41, Hadron Decay , 1 -> 2 @ (4.713e-12,-5.931e-13,9.813e-13,2.42e-12), Sherpa Incoming particles : [D] 2 rho(770)+ 93 ( 10 -> 41) [( 1.0077e+00,-1.1918e-01, 1.9323e-01, 4.8381e-01), p^2= 7.2980e-01, m= 8.5428e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 294 ( 41 -> ) [( 4.3640e-01,-2.5615e-01,-2.6008e-01, 1.9418e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((1.008,-0.1192,0.1932,0.4838)) * p_onshell ((0.9358,-0.1178,0.1949,0.4806)) Momentum conserved: (-2.22e-16,0,-1.11e-16,-1.11e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 295) { Blob [128]( 125, Hadron Decay , 1 -> 0 @ (5.222e-05,1.107e-05,4.051e-05,2.813e-05), Sherpa Incoming particles : [D] 1 pi 295 ( 41 -> 125) [( 5.3717e-01, 1.1385e-01, 4.1669e-01, 2.8937e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5713,0.137,0.4533,0.2896)) * p_onshell ((0.5372,0.1139,0.4167,0.2894)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 125, Hadron Decay , 1 -> 2 @ (5.222e-05,1.107e-05,4.051e-05,2.813e-05), Sherpa Incoming particles : [D] 2 pi 295 ( 41 -> 125) [( 5.3717e-01, 1.1385e-01, 4.1669e-01, 2.8937e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 296 ( 125 -> ) [( 5.7953e-02,-9.7757e-03, 5.7078e-02,-2.2458e-03), p^2= 3.0358e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 297 ( 125 -> ) [( 4.7921e-01, 1.2363e-01, 3.5961e-01, 2.9162e-01), p^2= 8.3267e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5713,0.137,0.4533,0.2896)) * p_onshell ((0.5372,0.1139,0.4167,0.2894)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 125, Hadron Decay , 1 -> 2 @ (5.222e-05,1.107e-05,4.051e-05,2.813e-05), Sherpa Incoming particles : [D] 2 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 296 ( 125 -> ) [( 6.3976e-02,-5.5281e-03, 6.3694e-02,-2.3392e-03), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 297 ( 125 -> ) [( 5.0730e-01, 1.4249e-01, 3.8962e-01, 2.9197e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5713,0.137,0.4533,0.2896)) * p_onshell ((0.5372,0.1139,0.4167,0.2894))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 125, Hadron Decay , 1 -> 2 @ (5.222e-05,1.107e-05,4.051e-05,2.813e-05), Sherpa Incoming particles : [D] 2 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 296 ( 125 -> ) [( 6.3976e-02,-5.5281e-03, 6.3694e-02,-2.3392e-03), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 297 ( 125 -> ) [( 5.0730e-01, 1.4249e-01, 3.8962e-01, 2.9197e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5713,0.137,0.4533,0.2896)) * p_onshell ((0.5372,0.1139,0.4167,0.2894)) Momentum conserved: (-2.22e-15,-5.274e-16,-1.721e-15,-9.992e-16) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 125, Hadron Decay , 1 -> 2 @ (5.222e-05,1.107e-05,4.051e-05,2.813e-05), Sherpa Incoming particles : [D] 2 pi 295 ( 41 -> 125) [( 5.7128e-01, 1.3697e-01, 4.5332e-01, 2.8963e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 296 ( 125 -> ) [( 6.3976e-02,-5.5281e-03, 6.3694e-02,-2.3392e-03), p^2=-1.7347e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 297 ( 125 -> ) [( 5.0730e-01, 1.4249e-01, 3.8962e-01, 2.9197e-01), p^2= 2.7756e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.5713,0.137,0.4533,0.2896)) * p_onshell ((0.5372,0.1139,0.4167,0.2894)) Momentum conserved: (-2.22e-15,-5.274e-16,-1.721e-15,-9.992e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 295") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+ 93") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 f(2)(1270) 75 ( 10 -> 42) [( 7.8992e+00,-6.0979e+00,-4.2013e+00, 2.4592e+00), p^2= 1.5145e+00, m= 1.2306e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(f(2)(1270) 75) { Blob [128]( 42, Hadron Decay , 1 -> 0 @ (6.661e-13,-5.137e-13,-3.54e-13,2.072e-13), Sherpa Incoming particles : [P] 1 f(2)(1270) 75 ( 10 -> 42) [( 7.9265e+00,-6.1138e+00,-4.2123e+00, 2.4660e+00), p^2= 1.6256e+00, m= 1.2306e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bb3290) * p_actual ((7.899,-6.098,-4.201,2.459)) * p_onshell ((7.926,-6.114,-4.212,2.466)) Decay_Handler_Base::FillOnshellDecay() { 225,211,-211,111,111f(2)(1270) --> pi+ pi+b pi pi 0.01314 (0.003339 ) GeV Blob [128]( 42, Hadron Decay , 1 -> 4 @ (6.661e-13,-5.137e-13,-3.54e-13,2.072e-13), Sherpa Incoming particles : [P] 2 f(2)(1270) 75 ( 10 -> 42) [( 7.9265e+00,-6.1138e+00,-4.2123e+00, 2.4660e+00), p^2= 1.6256e+00, m= 1.2306e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 298 ( 42 -> ) [( 3.7486e+00,-2.5754e+00,-2.4397e+00, 1.2030e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 299 ( 42 -> ) [( 1.6523e+00,-1.3800e+00,-7.4222e-01, 5.0545e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 300 ( 42 -> ) [( 1.1005e+00,-9.5416e-01,-4.0348e-01, 3.4581e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 301 ( 42 -> ) [( 1.4251e+00,-1.2042e+00,-6.2684e-01, 4.1169e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3290) * p_actual ((7.899,-6.098,-4.201,2.459)) * p_onshell ((7.926,-6.114,-4.212,2.466)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.1,-0.9542,-0.4035,0.3458) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(1.425,-1.204,-0.6268,0.4117) } Decay_Handler_Base::SetMasses(4) { Decay_Handler_Base::SetMasses:97("1.231 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("1.091 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.9515) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 0.8165) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9991 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 42, Hadron Decay , 1 -> 4 @ (6.661e-13,-5.137e-13,-3.54e-13,2.072e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 75 ( 10 -> 42) [( 7.8992e+00,-6.0979e+00,-4.2013e+00, 2.4592e+00), p^2= 1.5145e+00, m= 1.2306e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 298 ( 42 -> ) [( 3.7116e+00,-2.5638e+00,-2.4012e+00, 1.1906e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 299 ( 42 -> ) [( 1.6641e+00,-1.3853e+00,-7.5547e-01, 5.0988e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3290) * p_actual ((7.899,-6.098,-4.201,2.459)) * p_onshell ((7.926,-6.114,-4.212,2.466))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=f(2)(1270) -> pi+ pi+b pi pi) { Blob [128]( 42, Hadron Decay , 1 -> 4 @ (6.661e-13,-5.137e-13,-3.54e-13,2.072e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 75 ( 10 -> 42) [( 7.8992e+00,-6.0979e+00,-4.2013e+00, 2.4592e+00), p^2= 1.5145e+00, m= 1.2306e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 298 ( 42 -> ) [( 3.7116e+00,-2.5638e+00,-2.4012e+00, 1.1906e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 299 ( 42 -> ) [( 1.6641e+00,-1.3853e+00,-7.5547e-01, 5.0988e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3290) * p_actual ((7.899,-6.098,-4.201,2.459)) * p_onshell ((7.926,-6.114,-4.212,2.466)) Momentum conserved: (8.216e-15,-3.553e-15,-3.997e-15,1.943e-15) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,2) } Dipole_FF::AddRadiation( f(2)(1270) -> pi+ pi+b pi pi ) { nbar: 0.07108 n: 0 -> accept } Blob [0]( 42, Hadron Decay , 1 -> 4 @ (6.661e-13,-5.137e-13,-3.54e-13,2.072e-13), Sherpa Incoming particles : [D] 2 f(2)(1270) 75 ( 10 -> 42) [( 7.8992e+00,-6.0979e+00,-4.2013e+00, 2.4592e+00), p^2= 1.5145e+00, m= 1.2306e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 298 ( 42 -> ) [( 3.7116e+00,-2.5638e+00,-2.4012e+00, 1.1906e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 299 ( 42 -> ) [( 1.6641e+00,-1.3853e+00,-7.5547e-01, 5.0988e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bb3290) * p_actual ((7.899,-6.098,-4.201,2.459)) * p_onshell ((7.926,-6.114,-4.212,2.466)) Momentum conserved: (8.216e-15,-3.553e-15,-3.997e-15,1.943e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 300) { Blob [128]( 126, Hadron Decay , 1 -> 0 @ (0.0002541,-0.0002203,-9.315e-05,7.983e-05), Sherpa Incoming particles : [D] 1 pi 300 ( 42 -> 126) [( 1.1005e+00,-9.5416e-01,-4.0348e-01, 3.4581e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.092,-0.9434,-0.4077,0.3432)) * p_onshell ((1.1,-0.9542,-0.4035,0.3458)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 126, Hadron Decay , 1 -> 2 @ (0.0002541,-0.0002203,-9.315e-05,7.983e-05), Sherpa Incoming particles : [D] 2 pi 300 ( 42 -> 126) [( 1.1005e+00,-9.5416e-01,-4.0348e-01, 3.4581e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 302 ( 126 -> ) [( 8.2962e-01,-7.4783e-01,-2.5394e-01, 2.5404e-01), p^2=-6.9389e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 303 ( 126 -> ) [( 2.7084e-01,-2.0633e-01,-1.4954e-01, 9.1769e-02), p^2= 1.3878e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.092,-0.9434,-0.4077,0.3432)) * p_onshell ((1.1,-0.9542,-0.4035,0.3458)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 126, Hadron Decay , 1 -> 2 @ (0.0002541,-0.0002203,-9.315e-05,7.983e-05), Sherpa Incoming particles : [D] 2 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 302 ( 126 -> ) [( 8.1970e-01,-7.3717e-01,-2.5579e-01, 2.5112e-01), p^2= 5.5511e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 303 ( 126 -> ) [( 2.7223e-01,-2.0626e-01,-1.5194e-01, 9.2101e-02), p^2=-2.0817e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.092,-0.9434,-0.4077,0.3432)) * p_onshell ((1.1,-0.9542,-0.4035,0.3458))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 126, Hadron Decay , 1 -> 2 @ (0.0002541,-0.0002203,-9.315e-05,7.983e-05), Sherpa Incoming particles : [D] 2 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 302 ( 126 -> ) [( 8.1970e-01,-7.3717e-01,-2.5579e-01, 2.5112e-01), p^2= 5.5511e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 303 ( 126 -> ) [( 2.7223e-01,-2.0626e-01,-1.5194e-01, 9.2101e-02), p^2=-2.0817e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.092,-0.9434,-0.4077,0.3432)) * p_onshell ((1.1,-0.9542,-0.4035,0.3458)) Momentum conserved: (1.482e-14,-1.26e-14,-5.385e-15,4.538e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 126, Hadron Decay , 1 -> 2 @ (0.0002541,-0.0002203,-9.315e-05,7.983e-05), Sherpa Incoming particles : [D] 2 pi 300 ( 42 -> 126) [( 1.0919e+00,-9.4342e-01,-4.0772e-01, 3.4322e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 302 ( 126 -> ) [( 8.1970e-01,-7.3717e-01,-2.5579e-01, 2.5112e-01), p^2= 5.5511e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 303 ( 126 -> ) [( 2.7223e-01,-2.0626e-01,-1.5194e-01, 9.2101e-02), p^2=-2.0817e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.092,-0.9434,-0.4077,0.3432)) * p_onshell ((1.1,-0.9542,-0.4035,0.3458)) Momentum conserved: (1.482e-14,-1.26e-14,-5.385e-15,4.538e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 300") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 301) { Blob [128]( 127, Hadron Decay , 1 -> 0 @ (0.0002299,-0.0001943,-0.0001011,6.643e-05), Sherpa Incoming particles : [D] 1 pi 301 ( 42 -> 127) [( 1.4251e+00,-1.2042e+00,-6.2684e-01, 4.1169e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.432,-1.205,-0.6369,0.4155)) * p_onshell ((1.425,-1.204,-0.6268,0.4117)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 127, Hadron Decay , 1 -> 2 @ (0.0002299,-0.0001943,-0.0001011,6.643e-05), Sherpa Incoming particles : [D] 2 pi 301 ( 42 -> 127) [( 1.4251e+00,-1.2042e+00,-6.2684e-01, 4.1169e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 304 ( 127 -> ) [( 7.5403e-02,-4.3164e-02,-5.1834e-02, 3.3701e-02), p^2=-2.6021e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 305 ( 127 -> ) [( 1.3497e+00,-1.1611e+00,-5.7500e-01, 3.7799e-01), p^2=-4.4409e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.432,-1.205,-0.6369,0.4155)) * p_onshell ((1.425,-1.204,-0.6268,0.4117)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 127, Hadron Decay , 1 -> 2 @ (0.0002299,-0.0001943,-0.0001011,6.643e-05), Sherpa Incoming particles : [D] 2 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 304 ( 127 -> ) [( 7.7566e-02,-4.4473e-02,-5.3394e-02, 3.4463e-02), p^2=-1.3010e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 305 ( 127 -> ) [( 1.3540e+00,-1.1609e+00,-5.8352e-01, 3.8101e-01), p^2=-4.9960e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.432,-1.205,-0.6369,0.4155)) * p_onshell ((1.425,-1.204,-0.6268,0.4117))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 127, Hadron Decay , 1 -> 2 @ (0.0002299,-0.0001943,-0.0001011,6.643e-05), Sherpa Incoming particles : [D] 2 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 304 ( 127 -> ) [( 7.7566e-02,-4.4473e-02,-5.3394e-02, 3.4463e-02), p^2=-1.3010e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 305 ( 127 -> ) [( 1.3540e+00,-1.1609e+00,-5.8352e-01, 3.8101e-01), p^2=-4.9960e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.432,-1.205,-0.6369,0.4155)) * p_onshell ((1.425,-1.204,-0.6268,0.4117)) Momentum conserved: (5.107e-15,-4.441e-15,-2.442e-15,1.554e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 127, Hadron Decay , 1 -> 2 @ (0.0002299,-0.0001943,-0.0001011,6.643e-05), Sherpa Incoming particles : [D] 2 pi 301 ( 42 -> 127) [( 1.4316e+00,-1.2054e+00,-6.3691e-01, 4.1548e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 304 ( 127 -> ) [( 7.7566e-02,-4.4473e-02,-5.3394e-02, 3.4463e-02), p^2=-1.3010e-18, m= 0.0000e+00] ( 0, 0) [D] 1 P 305 ( 127 -> ) [( 1.3540e+00,-1.1609e+00,-5.8352e-01, 3.8101e-01), p^2=-4.9960e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((1.432,-1.205,-0.6369,0.4155)) * p_onshell ((1.425,-1.204,-0.6268,0.4117)) Momentum conserved: (5.107e-15,-4.441e-15,-2.442e-15,1.554e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 301") } Decay_Handler_Base::FillDecayTree:338("finished daughters of f(2)(1270) 75") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Delta(1232)+ 81 ( 10 -> 43) [( 3.6057e+01, 4.4831e+00, 4.8179e+00, 3.5421e+01), p^2= 2.1189e+00, m= 1.4556e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Delta(1232)+ 81) { Blob [128]( 43, Hadron Decay , 1 -> 0 @ (1.03e-10,1.281e-11,1.377e-11,1.012e-10), Sherpa Incoming particles : [P] 1 Delta(1232)+ 81 ( 10 -> 43) [( 3.6141e+01, 4.4949e+00, 4.8305e+00, 3.5512e+01), p^2= 1.5178e+00, m= 1.4556e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((36.06,4.483,4.818,35.42)) * p_onshell ((36.14,4.495,4.83,35.51)) Decay_Handler_Base::FillOnshellDecay() { 2214,2212,111 Delta(1232)+ --> P+ pi 0.07956 (0.07956 ) GeV Blob [128]( 43, Hadron Decay , 1 -> 2 @ (1.03e-10,1.281e-11,1.377e-11,1.012e-10), Sherpa Incoming particles : [P] 2 Delta(1232)+ 81 ( 10 -> 43) [( 3.6141e+01, 4.4949e+00, 4.8305e+00, 3.5512e+01), p^2= 1.5178e+00, m= 1.4556e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 306 ( 43 -> ) [( 3.0874e+01, 3.6315e+00, 4.1595e+00, 3.0362e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 307 ( 43 -> ) [( 5.2670e+00, 8.6336e-01, 6.7096e-01, 5.1504e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((36.06,4.483,4.818,35.42)) * p_onshell ((36.14,4.495,4.83,35.51)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(5.267,0.8634,0.671,5.15) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.456 > m[P+]=0.9383") Decay_Channel::GenerateMass(0 < m[pi] < 0.5174) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 43, Hadron Decay , 1 -> 2 @ (1.03e-10,1.281e-11,1.377e-11,1.012e-10), Sherpa Incoming particles : [D] 2 Delta(1232)+ 81 ( 10 -> 43) [( 3.6057e+01, 4.4831e+00, 4.8179e+00, 3.5421e+01), p^2= 2.1189e+00, m= 1.4556e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 306 ( 43 -> ) [( 2.8676e+01, 3.1852e+00, 3.8919e+00, 2.8216e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((36.06,4.483,4.818,35.42)) * p_onshell ((36.14,4.495,4.83,35.51))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Delta(1232)+ -> P+ pi) { Blob [128]( 43, Hadron Decay , 1 -> 2 @ (1.03e-10,1.281e-11,1.377e-11,1.012e-10), Sherpa Incoming particles : [D] 2 Delta(1232)+ 81 ( 10 -> 43) [( 3.6057e+01, 4.4831e+00, 4.8179e+00, 3.5421e+01), p^2= 2.1189e+00, m= 1.4556e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 306 ( 43 -> ) [( 2.8676e+01, 3.1852e+00, 3.8919e+00, 2.8216e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((36.06,4.483,4.818,35.42)) * p_onshell ((36.14,4.495,4.83,35.51)) Momentum conserved: (1.524e-12,1.907e-13,2.059e-13,1.508e-12) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( Delta(1232)+ -> P+ pi ) { nbar: 0.001707 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 43, Hadron Decay , 1 -> 2 @ (1.03e-10,1.281e-11,1.377e-11,1.012e-10), Sherpa Incoming particles : [D] 2 Delta(1232)+ 81 ( 10 -> 43) [( 3.6057e+01, 4.4831e+00, 4.8179e+00, 3.5421e+01), p^2= 2.1189e+00, m= 1.4556e+00] ( 0, 0) Outgoing particles : [D] 1 P+ 306 ( 43 -> ) [( 2.8676e+01, 3.1852e+00, 3.8919e+00, 2.8216e+01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4c006e0) * p_actual ((36.06,4.483,4.818,35.42)) * p_onshell ((36.14,4.495,4.83,35.51)) Momentum conserved: (1.524e-12,1.907e-13,2.059e-13,1.508e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 307) { Blob [128]( 128, Hadron Decay , 1 -> 0 @ (0.0007788,0.0001277,9.921e-05,0.0007616), Sherpa Incoming particles : [D] 1 pi 307 ( 43 -> 128) [( 5.2670e+00, 8.6336e-01, 6.7096e-01, 5.1504e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((7.381,1.298,0.9259,7.205)) * p_onshell ((5.267,0.8634,0.671,5.15)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 128, Hadron Decay , 1 -> 2 @ (0.0007788,0.0001277,9.921e-05,0.0007616), Sherpa Incoming particles : [D] 2 pi 307 ( 43 -> 128) [( 5.2670e+00, 8.6336e-01, 6.7096e-01, 5.1504e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 308 ( 128 -> ) [( 3.4702e+00, 6.0440e-01, 3.8889e-01, 3.3950e+00), p^2= 1.1935e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 309 ( 128 -> ) [( 1.7967e+00, 2.5896e-01, 2.8207e-01, 1.7555e+00), p^2= 7.4940e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((7.381,1.298,0.9259,7.205)) * p_onshell ((5.267,0.8634,0.671,5.15)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 128, Hadron Decay , 1 -> 2 @ (0.0007788,0.0001277,9.921e-05,0.0007616), Sherpa Incoming particles : [D] 2 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 308 ( 128 -> ) [( 4.8915e+00, 8.9536e-01, 5.6046e-01, 4.7761e+00), p^2= 7.4940e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 309 ( 128 -> ) [( 2.4890e+00, 4.0249e-01, 3.6548e-01, 2.4289e+00), p^2= 1.2490e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((7.381,1.298,0.9259,7.205)) * p_onshell ((5.267,0.8634,0.671,5.15))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 128, Hadron Decay , 1 -> 2 @ (0.0007788,0.0001277,9.921e-05,0.0007616), Sherpa Incoming particles : [D] 2 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 308 ( 128 -> ) [( 4.8915e+00, 8.9536e-01, 5.6046e-01, 4.7761e+00), p^2= 7.4940e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 309 ( 128 -> ) [( 2.4890e+00, 4.0249e-01, 3.6548e-01, 2.4289e+00), p^2= 1.2490e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((7.381,1.298,0.9259,7.205)) * p_onshell ((5.267,0.8634,0.671,5.15)) Momentum conserved: (-2.144e-12,-3.769e-13,-2.687e-13,-2.092e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 128, Hadron Decay , 1 -> 2 @ (0.0007788,0.0001277,9.921e-05,0.0007616), Sherpa Incoming particles : [D] 2 pi 307 ( 43 -> 128) [( 7.3805e+00, 1.2979e+00, 9.2594e-01, 7.2050e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 308 ( 128 -> ) [( 4.8915e+00, 8.9536e-01, 5.6046e-01, 4.7761e+00), p^2= 7.4940e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 309 ( 128 -> ) [( 2.4890e+00, 4.0249e-01, 3.6548e-01, 2.4289e+00), p^2= 1.2490e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((7.381,1.298,0.9259,7.205)) * p_onshell ((5.267,0.8634,0.671,5.15)) Momentum conserved: (-2.144e-12,-3.769e-13,-2.687e-13,-2.092e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 307") } Decay_Handler_Base::FillDecayTree:338("finished daughters of Delta(1232)+ 81") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K*(892)+ 96 ( 10 -> 44) [( 7.8265e+00,-3.5590e+00, 1.6544e+00,-6.7113e+00), p^2= 8.0850e-01, m= 8.9917e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(K*(892)+ 96) { Blob [128]( 44, Hadron Decay , 1 -> 0 @ (7.676e-11,-3.491e-11,1.623e-11,-6.583e-11), Sherpa Incoming particles : [P] 1 K*(892)+ 96 ( 10 -> 44) [( 7.8457e+00,-3.5682e+00, 1.6587e+00,-6.7288e+00), p^2= 7.9506e-01, m= 8.9917e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((7.826,-3.559,1.654,-6.711)) * p_onshell ((7.846,-3.568,1.659,-6.729)) Decay_Handler_Base::FillOnshellDecay() { 323,321,111 K*(892)+ --> K+ pi 0.01692 (0.01692 ) GeV Blob [128]( 44, Hadron Decay , 1 -> 2 @ (7.676e-11,-3.491e-11,1.623e-11,-6.583e-11), Sherpa Incoming particles : [P] 2 K*(892)+ 96 ( 10 -> 44) [( 7.8457e+00,-3.5682e+00, 1.6587e+00,-6.7288e+00), p^2= 7.9506e-01, m= 8.9917e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 310 ( 44 -> ) [( 3.9158e+00,-1.6889e+00, 6.0110e-01,-3.4462e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 311 ( 44 -> ) [( 3.9299e+00,-1.8793e+00, 1.0576e+00,-3.2826e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((7.826,-3.559,1.654,-6.711)) * p_onshell ((7.846,-3.568,1.659,-6.729)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(3.93,-1.879,1.058,-3.283) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.8992 > m[K+]=0.4937") Decay_Channel::GenerateMass(0 < m[pi] < 0.4055) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 44, Hadron Decay , 1 -> 2 @ (7.676e-11,-3.491e-11,1.623e-11,-6.583e-11), Sherpa Incoming particles : [D] 2 K*(892)+ 96 ( 10 -> 44) [( 7.8265e+00,-3.5590e+00, 1.6544e+00,-6.7113e+00), p^2= 8.0850e-01, m= 8.9917e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 310 ( 44 -> ) [( 3.8845e+00,-1.6725e+00, 5.8983e-01,-3.4206e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((7.826,-3.559,1.654,-6.711)) * p_onshell ((7.846,-3.568,1.659,-6.729))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=K*(892)+ -> K+ pi) { Blob [128]( 44, Hadron Decay , 1 -> 2 @ (7.676e-11,-3.491e-11,1.623e-11,-6.583e-11), Sherpa Incoming particles : [D] 2 K*(892)+ 96 ( 10 -> 44) [( 7.8265e+00,-3.5590e+00, 1.6544e+00,-6.7113e+00), p^2= 8.0850e-01, m= 8.9917e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 310 ( 44 -> ) [( 3.8845e+00,-1.6725e+00, 5.8983e-01,-3.4206e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((7.826,-3.559,1.654,-6.711)) * p_onshell ((7.846,-3.568,1.659,-6.729)) Momentum conserved: (4.441e-16,4.441e-16,-2.22e-16,1.332e-15) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( K*(892)+ -> K+ pi ) { nbar: 0.002846 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 44, Hadron Decay , 1 -> 2 @ (7.676e-11,-3.491e-11,1.623e-11,-6.583e-11), Sherpa Incoming particles : [D] 2 K*(892)+ 96 ( 10 -> 44) [( 7.8265e+00,-3.5590e+00, 1.6544e+00,-6.7113e+00), p^2= 8.0850e-01, m= 8.9917e-01] ( 0, 0) Outgoing particles : [D] 1 K+ 310 ( 44 -> ) [( 3.8845e+00,-1.6725e+00, 5.8983e-01,-3.4206e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0) [D] 1 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b5dc20) * p_actual ((7.826,-3.559,1.654,-6.711)) * p_onshell ((7.846,-3.568,1.659,-6.729)) Momentum conserved: (4.441e-16,4.441e-16,-2.22e-16,1.332e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 311) { Blob [128]( 129, Hadron Decay , 1 -> 0 @ (0.0005676,-0.0002714,0.0001527,-0.0004741), Sherpa Incoming particles : [D] 1 pi 311 ( 44 -> 129) [( 3.9299e+00,-1.8793e+00, 1.0576e+00,-3.2826e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.942,-1.886,1.065,-3.291)) * p_onshell ((3.93,-1.879,1.058,-3.283)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 129, Hadron Decay , 1 -> 2 @ (0.0005676,-0.0002714,0.0001527,-0.0004741), Sherpa Incoming particles : [D] 2 pi 311 ( 44 -> 129) [( 3.9299e+00,-1.8793e+00, 1.0576e+00,-3.2826e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 312 ( 129 -> ) [( 3.6915e+00,-1.7745e+00, 9.6329e-01,-3.0903e+00), p^2=-8.8818e-16, m= 0.0000e+00] ( 0, 0) [D] 1 P 313 ( 129 -> ) [( 2.3840e-01,-1.0481e-01, 9.4261e-02,-1.9226e-01), p^2=-1.9082e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.942,-1.886,1.065,-3.291)) * p_onshell ((3.93,-1.879,1.058,-3.283)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 129, Hadron Decay , 1 -> 2 @ (0.0005676,-0.0002714,0.0001527,-0.0004741), Sherpa Incoming particles : [D] 2 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 312 ( 129 -> ) [( 3.7020e+00,-1.7808e+00, 9.6957e-01,-3.0974e+00), p^2=-2.2204e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 313 ( 129 -> ) [( 2.3997e-01,-1.0565e-01, 9.4956e-02,-1.9341e-01), p^2= 6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.942,-1.886,1.065,-3.291)) * p_onshell ((3.93,-1.879,1.058,-3.283))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 129, Hadron Decay , 1 -> 2 @ (0.0005676,-0.0002714,0.0001527,-0.0004741), Sherpa Incoming particles : [D] 2 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 312 ( 129 -> ) [( 3.7020e+00,-1.7808e+00, 9.6957e-01,-3.0974e+00), p^2=-2.2204e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 313 ( 129 -> ) [( 2.3997e-01,-1.0565e-01, 9.4956e-02,-1.9341e-01), p^2= 6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.942,-1.886,1.065,-3.291)) * p_onshell ((3.93,-1.879,1.058,-3.283)) Momentum conserved: (-2.836e-13,1.362e-13,-7.679e-14,2.378e-13) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 129, Hadron Decay , 1 -> 2 @ (0.0005676,-0.0002714,0.0001527,-0.0004741), Sherpa Incoming particles : [D] 2 pi 311 ( 44 -> 129) [( 3.9420e+00,-1.8864e+00, 1.0645e+00,-3.2908e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 312 ( 129 -> ) [( 3.7020e+00,-1.7808e+00, 9.6957e-01,-3.0974e+00), p^2=-2.2204e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 313 ( 129 -> ) [( 2.3997e-01,-1.0565e-01, 9.4956e-02,-1.9341e-01), p^2= 6.9389e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((3.942,-1.886,1.065,-3.291)) * p_onshell ((3.93,-1.879,1.058,-3.283)) Momentum conserved: (-2.836e-13,1.362e-13,-7.679e-14,2.378e-13) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 311") } 303:daughters[i]->Flav()=K+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of K*(892)+ 96") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 omega(782) 156 ( 10 -> 45) [( 3.2156e+01, 8.3196e-01,-3.9626e-01,-3.2133e+01), p^2= 6.1764e-01, m= 7.8590e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(omega(782) 156) { Blob [128]( 45, Hadron Decay , 1 -> 0 @ (4.909e-11,1.27e-12,-6.049e-13,-4.905e-11), Sherpa Incoming particles : [P] 1 omega(782) 156 ( 10 -> 45) [( 3.2239e+01, 8.3412e-01,-3.9728e-01,-3.2217e+01), p^2= 6.1143e-01, m= 7.8590e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((32.16,0.832,-0.3963,-32.13)) * p_onshell ((32.24,0.8341,-0.3973,-32.22)) Decay_Handler_Base::FillOnshellDecay() { 223,211,-211,111 omega(782) --> pi+ pi+b pi 0.007545 (5.887e-05 ) GeV Blob [128]( 45, Hadron Decay , 1 -> 3 @ (4.909e-11,1.27e-12,-6.049e-13,-4.905e-11), Sherpa Incoming particles : [P] 2 omega(782) 156 ( 10 -> 45) [( 3.2239e+01, 8.3412e-01,-3.9728e-01,-3.2217e+01), p^2= 6.1143e-01, m= 7.8590e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 314 ( 45 -> ) [( 2.0881e+00, 1.3809e-01,-9.8592e-02,-2.0765e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 315 ( 45 -> ) [( 1.8296e+01, 4.5205e-01,-2.4257e-01,-1.8288e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 316 ( 45 -> ) [( 1.1855e+01, 2.4398e-01,-5.6123e-02,-1.1852e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((32.16,0.832,-0.3963,-32.13)) * p_onshell ((32.24,0.8341,-0.3973,-32.22)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(11.86,0.244,-0.05612,-11.85) } Decay_Handler_Base::SetMasses(3) { Decay_Handler_Base::SetMasses:97("0.7859 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.6463 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.5068) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 45, Hadron Decay , 1 -> 3 @ (4.909e-11,1.27e-12,-6.049e-13,-4.905e-11), Sherpa Incoming particles : [D] 2 omega(782) 156 ( 10 -> 45) [( 3.2156e+01, 8.3196e-01,-3.9626e-01,-3.2133e+01), p^2= 6.1764e-01, m= 7.8590e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 314 ( 45 -> ) [( 2.0783e+00, 1.3878e-01,-9.9296e-02,-2.0665e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 315 ( 45 -> ) [( 1.8250e+01, 4.5062e-01,-2.4220e-01,-1.8243e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((32.16,0.832,-0.3963,-32.13)) * p_onshell ((32.24,0.8341,-0.3973,-32.22))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=omega(782) -> pi+ pi+b pi) { Blob [128]( 45, Hadron Decay , 1 -> 3 @ (4.909e-11,1.27e-12,-6.049e-13,-4.905e-11), Sherpa Incoming particles : [D] 2 omega(782) 156 ( 10 -> 45) [( 3.2156e+01, 8.3196e-01,-3.9626e-01,-3.2133e+01), p^2= 6.1764e-01, m= 7.8590e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 314 ( 45 -> ) [( 2.0783e+00, 1.3878e-01,-9.9296e-02,-2.0665e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 315 ( 45 -> ) [( 1.8250e+01, 4.5062e-01,-2.4220e-01,-1.8243e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((32.16,0.832,-0.3963,-32.13)) * p_onshell ((32.24,0.8341,-0.3973,-32.22)) Momentum conserved: (2.665e-14,5.829e-16,-2.22e-16,-1.421e-14) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,1) } Dipole_FF::AddRadiation( omega(782) -> pi+ pi+b pi ) { nbar: 0.05314 n: 0 -> accept } Blob [0]( 45, Hadron Decay , 1 -> 3 @ (4.909e-11,1.27e-12,-6.049e-13,-4.905e-11), Sherpa Incoming particles : [D] 2 omega(782) 156 ( 10 -> 45) [( 3.2156e+01, 8.3196e-01,-3.9626e-01,-3.2133e+01), p^2= 6.1764e-01, m= 7.8590e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 314 ( 45 -> ) [( 2.0783e+00, 1.3878e-01,-9.9296e-02,-2.0665e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 315 ( 45 -> ) [( 1.8250e+01, 4.5062e-01,-2.4220e-01,-1.8243e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4a8c6d0) * p_actual ((32.16,0.832,-0.3963,-32.13)) * p_onshell ((32.24,0.8341,-0.3973,-32.22)) Momentum conserved: (2.665e-14,5.829e-16,-2.22e-16,-1.421e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 316) { Blob [128]( 130, Hadron Decay , 1 -> 0 @ (0.002497,5.138e-05,-1.182e-05,-0.002496), Sherpa Incoming particles : [D] 1 pi 316 ( 45 -> 130) [( 1.1855e+01, 2.4398e-01,-5.6123e-02,-1.1852e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((11.83,0.2425,-0.05476,-11.82)) * p_onshell ((11.86,0.244,-0.05612,-11.85)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 130, Hadron Decay , 1 -> 2 @ (0.002497,5.138e-05,-1.182e-05,-0.002496), Sherpa Incoming particles : [D] 2 pi 316 ( 45 -> 130) [( 1.1855e+01, 2.4398e-01,-5.6123e-02,-1.1852e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 317 ( 130 -> ) [( 7.3431e+00, 1.4627e-01,-1.0012e-01,-7.3409e+00), p^2=-1.1869e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 318 ( 130 -> ) [( 4.5122e+00, 9.7709e-02, 4.3995e-02,-4.5110e+00), p^2= 5.1075e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((11.83,0.2425,-0.05476,-11.82)) * p_onshell ((11.86,0.244,-0.05612,-11.85)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 130, Hadron Decay , 1 -> 2 @ (0.002497,5.138e-05,-1.182e-05,-0.002496), Sherpa Incoming particles : [D] 2 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 317 ( 130 -> ) [( 7.3254e+00, 1.4537e-01,-9.9275e-02,-7.3233e+00), p^2=-1.7193e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 318 ( 130 -> ) [( 4.5023e+00, 9.7175e-02, 4.4512e-02,-4.5010e+00), p^2=-6.7264e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((11.83,0.2425,-0.05476,-11.82)) * p_onshell ((11.86,0.244,-0.05612,-11.85))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 130, Hadron Decay , 1 -> 2 @ (0.002497,5.138e-05,-1.182e-05,-0.002496), Sherpa Incoming particles : [D] 2 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 317 ( 130 -> ) [( 7.3254e+00, 1.4537e-01,-9.9275e-02,-7.3233e+00), p^2=-1.7193e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 318 ( 130 -> ) [( 4.5023e+00, 9.7175e-02, 4.4512e-02,-4.5010e+00), p^2=-6.7264e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((11.83,0.2425,-0.05476,-11.82)) * p_onshell ((11.86,0.244,-0.05612,-11.85)) Momentum conserved: (-4.403e-12,-9.034e-14,2.039e-14,4.404e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 130, Hadron Decay , 1 -> 2 @ (0.002497,5.138e-05,-1.182e-05,-0.002496), Sherpa Incoming particles : [D] 2 pi 316 ( 45 -> 130) [( 1.1828e+01, 2.4255e-01,-5.4764e-02,-1.1824e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 317 ( 130 -> ) [( 7.3254e+00, 1.4537e-01,-9.9275e-02,-7.3233e+00), p^2=-1.7193e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 318 ( 130 -> ) [( 4.5023e+00, 9.7175e-02, 4.4512e-02,-4.5010e+00), p^2=-6.7264e-16, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((11.83,0.2425,-0.05476,-11.82)) * p_onshell ((11.86,0.244,-0.05612,-11.85)) Momentum conserved: (-4.403e-12,-9.034e-14,2.039e-14,4.404e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 316") } 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of omega(782) 156") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Sigma(1385)b 90 ( 10 -> 46) [( 1.6709e+00,-2.8299e-01,-7.7303e-02, 8.1364e-01), p^2= 2.0438e+00, m= 1.4296e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Sigma(1385)b 90) { Blob [128]( 46, Hadron Decay , 1 -> 0 @ (3.686e-12,-6.387e-13,-1.736e-13,1.837e-12), Sherpa Incoming particles : [P] 1 Sigma(1385)b 90 ( 10 -> 46) [( 1.6315e+00,-2.8272e-01,-7.6842e-02, 8.1313e-01), p^2= 1.9146e+00, m= 1.4296e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4ae5b10) * p_actual ((1.671,-0.283,-0.0773,0.8136)) * p_onshell ((1.631,-0.2827,-0.07684,0.8131)) Decay_Handler_Base::FillOnshellDecay() { 3214,3122,111 Sigma(1385) --> Lambda pi 0.03168 (0.00072 ) GeV Blob [128]( 46, Hadron Decay , 1 -> 2 @ (3.686e-12,-6.387e-13,-1.736e-13,1.837e-12), Sherpa Incoming particles : [P] 2 Sigma(1385)b 90 ( 10 -> 46) [( 1.6315e+00,-2.8272e-01,-7.6842e-02, 8.1313e-01), p^2= 1.9146e+00, m= 1.4296e+00] ( 0, 0) Outgoing particles : [D] 1 Lambdab 319 ( 46 -> ) [( 1.3438e+00,-2.0667e-01, 1.4062e-01, 7.0605e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) [D] 1 pi 320 ( 46 -> ) [( 2.8767e-01,-7.6047e-02,-2.1746e-01, 1.0708e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ae5b10) * p_actual ((1.671,-0.283,-0.0773,0.8136)) * p_onshell ((1.631,-0.2827,-0.07684,0.8131)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.2877,-0.07605,-0.2175,0.1071) } Hadron_Decay_Handler::CreateDecayBlob(Lambdab) { Decay_Table::Select(Lambda) { 134:*selected=3122,2212,-211 Lambda --> P+ pi+b 1.598e-15 (1.25e-17 ) GeV } 149:inpart->Momentum()=(1.344,-0.2067,0.1406,0.7061) } Decay_Handler_Base::SetMasses(2) { Decay_Channel::GenerateMass(1.078 < m[Lambda] < 1.43) { 187:mass=1.116 } Decay_Channel::GenerateMass(0 < m[pi] < 0.3139) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.024 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 46, Hadron Decay , 1 -> 2 @ (3.686e-12,-6.387e-13,-1.736e-13,1.837e-12), Sherpa Incoming particles : [D] 2 Sigma(1385)b 90 ( 10 -> 46) [( 1.6709e+00,-2.8299e-01,-7.7303e-02, 8.1364e-01), p^2= 2.0438e+00, m= 1.4296e+00] ( 0, 0) Outgoing particles : [D] 1 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) [D] 1 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ae5b10) * p_actual ((1.671,-0.283,-0.0773,0.8136)) * p_onshell ((1.631,-0.2827,-0.07684,0.8131))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Sigma(1385)b -> Lambdab pi) { Blob [128]( 46, Hadron Decay , 1 -> 2 @ (3.686e-12,-6.387e-13,-1.736e-13,1.837e-12), Sherpa Incoming particles : [D] 2 Sigma(1385)b 90 ( 10 -> 46) [( 1.6709e+00,-2.8299e-01,-7.7303e-02, 8.1364e-01), p^2= 2.0438e+00, m= 1.4296e+00] ( 0, 0) Outgoing particles : [D] 1 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) [D] 1 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ae5b10) * p_actual ((1.671,-0.283,-0.0773,0.8136)) * p_onshell ((1.631,-0.2827,-0.07684,0.8131)) Momentum conserved: (-8.882e-16,1.388e-16,5.551e-17,-1.943e-16) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 46, Hadron Decay , 1 -> 2 @ (3.686e-12,-6.387e-13,-1.736e-13,1.837e-12), Sherpa Incoming particles : [D] 2 Sigma(1385)b 90 ( 10 -> 46) [( 1.6709e+00,-2.8299e-01,-7.7303e-02, 8.1364e-01), p^2= 2.0438e+00, m= 1.4296e+00] ( 0, 0) Outgoing particles : [D] 1 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) [D] 1 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ae5b10) * p_actual ((1.671,-0.283,-0.0773,0.8136)) * p_onshell ((1.631,-0.2827,-0.07684,0.8131)) Momentum conserved: (-8.882e-16,1.388e-16,5.551e-17,-1.943e-16) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 320) { Blob [128]( 131, Hadron Decay , 1 -> 0 @ (0.0001627,-4.301e-05,-0.000123,6.056e-05), Sherpa Incoming particles : [D] 1 pi 320 ( 46 -> 131) [( 2.8767e-01,-7.6047e-02,-2.1746e-01, 1.0708e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.3278,-0.08712,-0.2612,0.1158)) * p_onshell ((0.2877,-0.07605,-0.2175,0.1071)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 131, Hadron Decay , 1 -> 2 @ (0.0001627,-4.301e-05,-0.000123,6.056e-05), Sherpa Incoming particles : [D] 2 pi 320 ( 46 -> 131) [( 2.8767e-01,-7.6047e-02,-2.1746e-01, 1.0708e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 321 ( 131 -> ) [( 2.4358e-01,-3.2843e-02,-2.2025e-01, 9.8686e-02), p^2= 1.3878e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 322 ( 131 -> ) [( 4.4099e-02,-4.3204e-02, 2.7907e-03, 8.3904e-03), p^2=-3.0527e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.3278,-0.08712,-0.2612,0.1158)) * p_onshell ((0.2877,-0.07605,-0.2175,0.1071)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 131, Hadron Decay , 1 -> 2 @ (0.0001627,-4.301e-05,-0.000123,6.056e-05), Sherpa Incoming particles : [D] 2 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 321 ( 131 -> ) [( 2.8253e-01,-4.2766e-02,-2.5777e-01, 1.0746e-01), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 322 ( 131 -> ) [( 4.5258e-02,-4.4351e-02,-3.4331e-03, 8.3330e-03), p^2= 2.2379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.3278,-0.08712,-0.2612,0.1158)) * p_onshell ((0.2877,-0.07605,-0.2175,0.1071))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 131, Hadron Decay , 1 -> 2 @ (0.0001627,-4.301e-05,-0.000123,6.056e-05), Sherpa Incoming particles : [D] 2 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 321 ( 131 -> ) [( 2.8253e-01,-4.2766e-02,-2.5777e-01, 1.0746e-01), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 322 ( 131 -> ) [( 4.5258e-02,-4.4351e-02,-3.4331e-03, 8.3330e-03), p^2= 2.2379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.3278,-0.08712,-0.2612,0.1158)) * p_onshell ((0.2877,-0.07605,-0.2175,0.1071)) Momentum conserved: (1.596e-16,-6.245e-17,-2.151e-16,5.551e-17) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 131, Hadron Decay , 1 -> 2 @ (0.0001627,-4.301e-05,-0.000123,6.056e-05), Sherpa Incoming particles : [D] 2 pi 320 ( 46 -> 131) [( 3.2778e-01,-8.7117e-02,-2.6120e-01, 1.1580e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 321 ( 131 -> ) [( 2.8253e-01,-4.2766e-02,-2.5777e-01, 1.0746e-01), p^2=-2.7756e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 322 ( 131 -> ) [( 4.5258e-02,-4.4351e-02,-3.4331e-03, 8.3330e-03), p^2= 2.2379e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.3278,-0.08712,-0.2612,0.1158)) * p_onshell ((0.2877,-0.07605,-0.2175,0.1071)) Momentum conserved: (1.596e-16,-6.245e-17,-2.151e-16,5.551e-17) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 320") } 303:daughters[i]->Flav()=Lambdab Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(Lambdab 319) { Blob [128]( 132, Hadron Decay , 1 -> 0 @ (69.32,-10.66,7.254,36.42), Sherpa Incoming particles : [D] 1 Lambdab 319 ( 46 -> 132) [( 1.3438e+00,-2.0667e-01, 1.4062e-01, 7.0605e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bdedc0) * p_actual ((1.343,-0.1959,0.1839,0.6978)) * p_onshell ((1.344,-0.2067,0.1406,0.7061)) Decay_Handler_Base::FillOnshellDecay() { 3122,2212,-211 Lambda --> P+ pi+b 1.598e-15 (1.25e-17 ) GeV Blob [128]( 132, Hadron Decay , 1 -> 2 @ (69.32,-10.66,7.254,36.42), Sherpa Incoming particles : [D] 2 Lambdab 319 ( 46 -> 132) [( 1.3438e+00,-2.0667e-01, 1.4062e-01, 7.0605e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 323 ( 132 -> ) [( 1.0980e+00,-8.0123e-02, 1.3491e-01, 5.4839e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 324 ( 132 -> ) [( 2.4573e-01,-1.2655e-01, 5.7131e-03, 1.5766e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bdedc0) * p_actual ((1.343,-0.1959,0.1839,0.6978)) * p_onshell ((1.344,-0.2067,0.1406,0.7061)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("1.116 > m[P+b]=0.9383") Decay_Handler_Base::SetMasses:97("0.1774 > m[pi+]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 132, Hadron Decay , 1 -> 2 @ (69.32,-10.66,7.254,36.42), Sherpa Incoming particles : [D] 2 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 323 ( 132 -> ) [( 1.0993e+00,-7.1310e-02, 1.7097e-01, 5.4211e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 324 ( 132 -> ) [( 2.4376e-01,-1.2457e-01, 1.2925e-02, 1.5574e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bdedc0) * p_actual ((1.343,-0.1959,0.1839,0.6978)) * p_onshell ((1.344,-0.2067,0.1406,0.7061))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Lambdab -> P+b pi+) { Blob [128]( 132, Hadron Decay , 1 -> 2 @ (69.32,-10.66,7.254,36.42), Sherpa Incoming particles : [D] 2 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 323 ( 132 -> ) [( 1.0993e+00,-7.1310e-02, 1.7097e-01, 5.4211e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 324 ( 132 -> ) [( 2.4376e-01,-1.2457e-01, 1.2925e-02, 1.5574e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bdedc0) * p_actual ((1.343,-0.1959,0.1839,0.6978)) * p_onshell ((1.344,-0.2067,0.1406,0.7061)) Momentum conserved: (4.163e-16,0,-6.939e-18,-5.551e-17) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( Lambdab -> P+b pi+ ) { nbar: 0.003488 n: 0 -> accept } Blob [0]( 132, Hadron Decay , 1 -> 2 @ (69.32,-10.66,7.254,36.42), Sherpa Incoming particles : [D] 2 Lambdab 319 ( 46 -> 132) [( 1.3431e+00,-1.9588e-01, 1.8390e-01, 6.9784e-01), p^2= 1.2447e+00, m= 1.1157e+00] ( 0, 0) Outgoing particles : [D] 1 P+b 323 ( 132 -> ) [( 1.0993e+00,-7.1310e-02, 1.7097e-01, 5.4211e-01), p^2= 8.8035e-01, m= 9.3827e-01] ( 0, 0) [D] 1 pi+ 324 ( 132 -> ) [( 2.4376e-01,-1.2457e-01, 1.2925e-02, 1.5574e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bdedc0) * p_actual ((1.343,-0.1959,0.1839,0.6978)) * p_onshell ((1.344,-0.2067,0.1406,0.7061)) Momentum conserved: (4.163e-16,0,-6.939e-18,-5.551e-17) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Lambdab 319") } Decay_Handler_Base::FillDecayTree:338("finished daughters of Sigma(1385)b 90") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi 152 ( 10 -> 47) [( 9.4385e+00, 3.4371e+00, 6.7640e-01,-8.7634e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(pi 152) { Blob [128]( 47, Hadron Decay , 1 -> 0 @ (0.0001544,5.621e-05,1.106e-05,-0.0001433), Sherpa Incoming particles : [P] 1 pi 152 ( 10 -> 47) [( 9.4630e+00, 3.4460e+00, 6.7815e-01,-8.7861e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((9.439,3.437,0.6764,-8.763)) * p_onshell ((9.463,3.446,0.6782,-8.786)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 47, Hadron Decay , 1 -> 2 @ (0.0001544,5.621e-05,1.106e-05,-0.0001433), Sherpa Incoming particles : [P] 2 pi 152 ( 10 -> 47) [( 9.4630e+00, 3.4460e+00, 6.7815e-01,-8.7861e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 325 ( 47 -> ) [( 3.2653e+00, 1.2085e+00, 2.9385e-01,-3.0192e+00), p^2=-1.5821e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 326 ( 47 -> ) [( 6.1977e+00, 2.2375e+00, 3.8430e-01,-5.7669e+00), p^2= 8.3267e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((9.439,3.437,0.6764,-8.763)) * p_onshell ((9.463,3.446,0.6782,-8.786)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 47, Hadron Decay , 1 -> 2 @ (0.0001544,5.621e-05,1.106e-05,-0.0001433), Sherpa Incoming particles : [D] 2 pi 152 ( 10 -> 47) [( 9.4385e+00, 3.4371e+00, 6.7640e-01,-8.7634e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 325 ( 47 -> ) [( 3.2569e+00, 1.2054e+00, 2.9325e-01,-3.0113e+00), p^2=-1.4017e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 326 ( 47 -> ) [( 6.1817e+00, 2.2316e+00, 3.8315e-01,-5.7520e+00), p^2=-3.2474e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((9.439,3.437,0.6764,-8.763)) * p_onshell ((9.463,3.446,0.6782,-8.786))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 47, Hadron Decay , 1 -> 2 @ (0.0001544,5.621e-05,1.106e-05,-0.0001433), Sherpa Incoming particles : [D] 2 pi 152 ( 10 -> 47) [( 9.4385e+00, 3.4371e+00, 6.7640e-01,-8.7634e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 325 ( 47 -> ) [( 3.2569e+00, 1.2054e+00, 2.9325e-01,-3.0113e+00), p^2=-1.4017e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 326 ( 47 -> ) [( 6.1817e+00, 2.2316e+00, 3.8315e-01,-5.7520e+00), p^2=-3.2474e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((9.439,3.437,0.6764,-8.763)) * p_onshell ((9.463,3.446,0.6782,-8.786)) Momentum conserved: (-1.676e-12,-6.115e-13,-1.202e-13,1.559e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 47, Hadron Decay , 1 -> 2 @ (0.0001544,5.621e-05,1.106e-05,-0.0001433), Sherpa Incoming particles : [D] 2 pi 152 ( 10 -> 47) [( 9.4385e+00, 3.4371e+00, 6.7640e-01,-8.7634e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 325 ( 47 -> ) [( 3.2569e+00, 1.2054e+00, 2.9325e-01,-3.0113e+00), p^2=-1.4017e-15, m= 0.0000e+00] ( 0, 0) [D] 1 P 326 ( 47 -> ) [( 6.1817e+00, 2.2316e+00, 3.8315e-01,-5.7520e+00), p^2=-3.2474e-15, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((9.439,3.437,0.6764,-8.763)) * p_onshell ((9.463,3.446,0.6782,-8.786)) Momentum conserved: (-1.676e-12,-6.115e-13,-1.202e-13,1.559e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 152") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 120 ( 10 -> ) [( 4.0256e+01, 5.2518e-01, 4.7771e-01,-4.0250e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7262e+02, 2.7336e-01,-9.3771e-01,-1.7260e+02), p^2= 6.0066e+00, m= 2.4508e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(Sigma(c)(2455)++ 110) { Blob [128]( 48, Hadron Decay , 1 -> 0 @ (1.548e-09,2.451e-12,-8.409e-12,-1.548e-09), Sherpa Incoming particles : [P] 1 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7307e+02, 2.7407e-01,-9.4014e-01,-1.7305e+02), p^2= 6.0162e+00, m= 2.4508e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4be15c0) * p_actual ((172.6,0.2734,-0.9377,-172.6)) * p_onshell ((173.1,0.2741,-0.9401,-173.1)) Decay_Handler_Base::FillOnshellDecay() { 4222,4122,211 Sigma(c)(2455)++ --> Lambda(c)+ pi+ 0.0023 (0.0023 ) GeV Blob [128]( 48, Hadron Decay , 1 -> 2 @ (1.548e-09,2.451e-12,-8.409e-12,-1.548e-09), Sherpa Incoming particles : [P] 2 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7307e+02, 2.7407e-01,-9.4014e-01,-1.7305e+02), p^2= 6.0162e+00, m= 2.4508e+00] ( 0, 0) Outgoing particles : [D] 1 Lambda(c)+ 327 ( 48 -> ) [( 1.6562e+02, 2.0077e-01,-9.2555e-01,-1.6560e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) [D] 1 pi+ 328 ( 48 -> ) [( 7.4499e+00, 7.3295e-02,-1.4597e-02,-7.4482e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4be15c0) * p_actual ((172.6,0.2734,-0.9377,-172.6)) * p_onshell ((173.1,0.2741,-0.9401,-173.1)) } Hadron_Decay_Handler::CreateDecayBlob(Lambda(c)+) { Decay_Table::Select(Lambda(c)+) { 134:*selected=4122,2101,3,-1,2 Lambda(c)+ --> ud_0 s db u 7.4e-13 GeV } 149:inpart->Momentum()=(165.6,0.2008,-0.9255,-165.6) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("2.451 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[Lambda(c)+] < 2.311) { 187:mass=2.285 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 48, Hadron Decay , 1 -> 2 @ (1.548e-09,2.451e-12,-8.409e-12,-1.548e-09), Sherpa Incoming particles : [D] 2 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7262e+02, 2.7336e-01,-9.3771e-01,-1.7260e+02), p^2= 6.0066e+00, m= 2.4508e+00] ( 0, 0) Outgoing particles : [D] 1 Lambda(c)+ 327 ( 48 -> 133) [( 1.6516e+02, 2.0238e-01,-9.2203e-01,-1.6514e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) [D] 1 pi+ 328 ( 48 -> ) [( 7.4676e+00, 7.0977e-02,-1.5680e-02,-7.4660e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4be15c0) * p_actual ((172.6,0.2734,-0.9377,-172.6)) * p_onshell ((173.1,0.2741,-0.9401,-173.1))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=Sigma(c)(2455)++ -> Lambda(c)+ pi+) { Blob [128]( 48, Hadron Decay , 1 -> 2 @ (1.548e-09,2.451e-12,-8.409e-12,-1.548e-09), Sherpa Incoming particles : [D] 2 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7262e+02, 2.7336e-01,-9.3771e-01,-1.7260e+02), p^2= 6.0066e+00, m= 2.4508e+00] ( 0, 0) Outgoing particles : [D] 1 Lambda(c)+ 327 ( 48 -> 133) [( 1.6516e+02, 2.0238e-01,-9.2203e-01,-1.6514e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) [D] 1 pi+ 328 ( 48 -> ) [( 7.4676e+00, 7.0977e-02,-1.5680e-02,-7.4660e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4be15c0) * p_actual ((172.6,0.2734,-0.9377,-172.6)) * p_onshell ((173.1,0.2741,-0.9401,-173.1)) Momentum conserved: (4.232e-11,6.706e-14,-2.301e-13,-4.232e-11) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,2,0) } Dipole_FI::AddRadiation( Sigma(c)(2455)++ -> Lambda(c)+ pi+ ) { Avarage_Photon_Number::Avarage_Photon_Number(3) { back-to-back pair discovered: 2.001 <-> 2.001 back-to-back pair discovered: 2.224 <-> 2.224 back-to-back pair discovered: 2.21 <-> 2.21 all dipoles: [(0,1): 1.549e-05]: [Sigma(c)(2455)++,Lambda(c)+] [(0,2): 0.003626]: [Sigma(c)(2455)++,pi+] [(1,2): -0.002049]: [Lambda(c)+,pi+] -> 0.001592 } nbar: 0.001592 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 48, Hadron Decay , 1 -> 2 @ (1.548e-09,2.451e-12,-8.409e-12,-1.548e-09), Sherpa Incoming particles : [D] 2 Sigma(c)(2455)++ 110 ( 10 -> 48) [( 1.7262e+02, 2.7336e-01,-9.3771e-01,-1.7260e+02), p^2= 6.0066e+00, m= 2.4508e+00] ( 0, 0) Outgoing particles : [D] 1 Lambda(c)+ 327 ( 48 -> 133) [( 1.6516e+02, 2.0238e-01,-9.2203e-01,-1.6514e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) [D] 1 pi+ 328 ( 48 -> ) [( 7.4676e+00, 7.0977e-02,-1.5680e-02,-7.4660e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4be15c0) * p_actual ((172.6,0.2734,-0.9377,-172.6)) * p_onshell ((173.1,0.2741,-0.9401,-173.1)) Momentum conserved: (4.232e-11,6.706e-14,-2.301e-13,-4.232e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=Lambda(c)+ Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(Lambda(c)+ 327) { Blob [128]( 133, Hadron Decay , 1 -> 0 @ (0.2794,0.0003387,-0.001562,-0.2794), Sherpa Incoming particles : [D] 1 Lambda(c)+ 327 ( 48 -> 133) [( 1.6562e+02, 2.0077e-01,-9.2555e-01,-1.6560e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4ac8320) * p_actual ((165.2,0.2024,-0.922,-165.1)) * p_onshell ((165.6,0.2008,-0.9255,-165.6)) Decay_Handler_Base::FillOnshellDecay() { 4122,2101,3,-1,2 Lambda(c)+ --> ud_0 s db u 7.4e-13 GeV Blob [128]( 133, Hadron Decay , 1 -> 4 @ (0.2794,0.0003387,-0.001562,-0.2794), Sherpa Incoming particles : [D] 2 Lambda(c)+ 327 ( 48 -> 133) [( 1.6562e+02, 2.0077e-01,-9.2555e-01,-1.6560e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) Outgoing particles : [D] 1 ud_0 329 ( 133 -> ) [( 5.8244e+01, 7.5591e-02,-3.1961e-01,-5.8238e+01), p^2= 6.5028e-01, m= 8.0640e-01] ( 0, 0) [D] 1 s 330 ( 133 -> ) [( 5.7827e+01, 2.9595e-01,-2.9407e-01,-5.7824e+01), p^2= 2.0250e-01, m= 4.5000e-01] ( 0, 0) [D] 1 db 331 ( 133 -> ) [( 3.2699e+01, 1.5772e-01,-1.6023e-01,-3.2697e+01), p^2= 9.0000e-02, m= 3.0000e-01] ( 0, 0) [D] 1 u 332 ( 133 -> ) [( 1.6851e+01,-3.2850e-01,-1.5164e-01,-1.6844e+01), p^2= 9.0000e-02, m= 3.0000e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4ac8320) * p_actual ((165.2,0.2024,-0.922,-165.1)) * p_onshell ((165.6,0.2008,-0.9255,-165.6)) } [D] 1 ud_0 329 ( 133 -> ) [( 5.8244e+01, 7.5591e-02,-3.1961e-01,-5.8238e+01), p^2= 6.5028e-01, m= 8.0640e-01] ( 0,639) [D] 1 s 330 ( 133 -> ) [( 5.7827e+01, 2.9595e-01,-2.9407e-01,-5.7824e+01), p^2= 2.0250e-01, m= 4.5000e-01] (639, 0) [D] 1 db 331 ( 133 -> ) [( 3.2699e+01, 1.5772e-01,-1.6023e-01,-3.2697e+01), p^2= 9.0000e-02, m= 3.0000e-01] ( 0,640) [D] 1 u 332 ( 133 -> ) [( 1.6851e+01,-3.2850e-01,-1.5164e-01,-1.6844e+01), p^2= 9.0000e-02, m= 3.0000e-01] (640, 0) Decay_Handler_Base::SetMasses(4) { Decay_Handler_Base::SetMasses:97("2.285 > m[ud_0]=0.8064") Decay_Handler_Base::SetMasses:97("1.478 > m[s]=0.45") Decay_Handler_Base::SetMasses:97("1.028 > m[db]=0.3") Decay_Handler_Base::SetMasses:97("0.7285 > m[u]=0.3") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [2]( 133, Hadron Decay , 1 -> 4 @ (0.2794,0.0003387,-0.001562,-0.2794), Sherpa Incoming particles : [D] 2 Lambda(c)+ 327 ( 48 -> 133) [( 1.6516e+02, 2.0238e-01,-9.2203e-01,-1.6514e+02), p^2= 5.2208e+00, m= 2.2849e+00] ( 0, 0) Outgoing particles : [D] 1 ud_0 329 ( 133 -> ) [( 5.8081e+01, 7.6157e-02,-3.1837e-01,-5.8074e+01), p^2= 6.5028e-01, m= 8.0640e-01] ( 0,639) [D] 1 s 330 ( 133 -> ) [( 5.7665e+01, 2.9651e-01,-2.9285e-01,-5.7662e+01), p^2= 2.0250e-01, m= 4.5000e-01] (639, 0) [D] 1 db 331 ( 133 -> ) [( 3.2607e+01, 1.5804e-01,-1.5954e-01,-3.2605e+01), p^2= 9.0000e-02, m= 3.0000e-01] ( 0,640) [D] 1 u 332 ( 133 -> ) [( 1.6803e+01,-3.2833e-01,-1.5128e-01,-1.6796e+01), p^2= 9.0000e-02, m= 3.0000e-01] (640, 0) Data_Container: * dc (0x7ffbb4ac8320) * p_actual ((165.2,0.2024,-0.922,-165.1)) * p_onshell ((165.6,0.2008,-0.9255,-165.6))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=1, qed=0, mode=0, process=Lambda(c)+ -> ud_0 s db u) { } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=u Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=ud_0 Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=s Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=db Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Lambda(c)+ 327") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of Sigma(c)(2455)++ 110") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 pi+b 66 ( 10 -> ) [( 4.2579e-01,-7.7147e-02, 3.4469e-01, 1.9251e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770) 70 ( 10 -> 49) [( 6.8919e+00,-6.6259e+00, 3.3784e-01, 1.6273e+00), p^2= 8.3335e-01, m= 9.1288e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770) 70) { Blob [128]( 49, Hadron Decay , 1 -> 0 @ (2.947e-11,-2.841e-11,1.45e-12,6.973e-12), Sherpa Incoming particles : [P] 1 rho(770) 70 ( 10 -> 49) [( 6.8913e+00,-6.6426e+00, 3.3899e-01, 1.6304e+00), p^2= 5.9290e-01, m= 9.1288e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((6.892,-6.626,0.3378,1.627)) * p_onshell ((6.891,-6.643,0.339,1.63)) Decay_Handler_Base::FillOnshellDecay() { 113,211,-211 rho(770) --> pi+ pi+b 0.149 (3.014e-05 ) GeV Blob [128]( 49, Hadron Decay , 1 -> 2 @ (2.947e-11,-2.841e-11,1.45e-12,6.973e-12), Sherpa Incoming particles : [P] 2 rho(770) 70 ( 10 -> 49) [( 6.8913e+00,-6.6426e+00, 3.3899e-01, 1.6304e+00), p^2= 5.9290e-01, m= 9.1288e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 333 ( 49 -> ) [( 2.2013e+00,-2.1405e+00,-2.1338e-01, 4.4598e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 334 ( 49 -> ) [( 4.6901e+00,-4.5022e+00, 5.5237e-01, 1.1844e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((6.892,-6.626,0.3378,1.627)) * p_onshell ((6.891,-6.643,0.339,1.63)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.9129 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("0.7733 > m[pi+b]=0.1396") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1.003 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 49, Hadron Decay , 1 -> 2 @ (2.947e-11,-2.841e-11,1.45e-12,6.973e-12), Sherpa Incoming particles : [D] 2 rho(770) 70 ( 10 -> 49) [( 6.8919e+00,-6.6259e+00, 3.3784e-01, 1.6273e+00), p^2= 8.3335e-01, m= 9.1288e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 333 ( 49 -> ) [( 2.3496e+00,-2.2820e+00,-2.8314e-01, 4.6215e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 334 ( 49 -> ) [( 4.5423e+00,-4.3439e+00, 6.2098e-01, 1.1651e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((6.892,-6.626,0.3378,1.627)) * p_onshell ((6.891,-6.643,0.339,1.63))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770) -> pi+ pi+b) { Blob [128]( 49, Hadron Decay , 1 -> 2 @ (2.947e-11,-2.841e-11,1.45e-12,6.973e-12), Sherpa Incoming particles : [D] 2 rho(770) 70 ( 10 -> 49) [( 6.8919e+00,-6.6259e+00, 3.3784e-01, 1.6273e+00), p^2= 8.3335e-01, m= 9.1288e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 333 ( 49 -> ) [( 2.3496e+00,-2.2820e+00,-2.8314e-01, 4.6215e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 334 ( 49 -> ) [( 4.5423e+00,-4.3439e+00, 6.2098e-01, 1.1651e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((6.892,-6.626,0.3378,1.627)) * p_onshell ((6.891,-6.643,0.339,1.63)) Momentum conserved: (3.02e-14,-2.842e-14,1.443e-15,6.883e-15) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( rho(770) -> pi+ pi+b ) { nbar: 0.09665 n: 0 -> accept } Blob [0]( 49, Hadron Decay , 1 -> 2 @ (2.947e-11,-2.841e-11,1.45e-12,6.973e-12), Sherpa Incoming particles : [D] 2 rho(770) 70 ( 10 -> 49) [( 6.8919e+00,-6.6259e+00, 3.3784e-01, 1.6273e+00), p^2= 8.3335e-01, m= 9.1288e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 333 ( 49 -> ) [( 2.3496e+00,-2.2820e+00,-2.8314e-01, 4.6215e-01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 334 ( 49 -> ) [( 4.5423e+00,-4.3439e+00, 6.2098e-01, 1.1651e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b89b20) * p_actual ((6.892,-6.626,0.3378,1.627)) * p_onshell ((6.891,-6.643,0.339,1.63)) Momentum conserved: (3.02e-14,-2.842e-14,1.443e-15,6.883e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770) 70") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 rho(770)+ 86 ( 10 -> 50) [( 4.2151e+00, 4.4333e-01, 9.2823e-01, 4.0454e+00), p^2= 3.4367e-01, m= 5.8624e-01] ( 0, 0)") Decay_Handler_Base::FillDecayTree(rho(770)+ 86) { Blob [128]( 50, Hadron Decay , 1 -> 0 @ (5.387e-11,5.616e-12,1.177e-11,5.135e-11), Sherpa Incoming particles : [P] 1 rho(770)+ 86 ( 10 -> 50) [( 4.2568e+00, 4.4377e-01, 9.3017e-01, 4.0577e+00), p^2= 5.9290e-01, m= 5.8624e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((4.215,0.4433,0.9282,4.045)) * p_onshell ((4.257,0.4438,0.9302,4.058)) Decay_Handler_Base::FillOnshellDecay() { 213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV Blob [128]( 50, Hadron Decay , 1 -> 2 @ (5.387e-11,5.616e-12,1.177e-11,5.135e-11), Sherpa Incoming particles : [P] 2 rho(770)+ 86 ( 10 -> 50) [( 4.2568e+00, 4.4377e-01, 9.3017e-01, 4.0577e+00), p^2= 5.9290e-01, m= 5.8624e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 335 ( 50 -> ) [( 3.3768e+00, 1.1872e-01, 6.1528e-01, 3.3152e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 336 ( 50 -> ) [( 8.7996e-01, 3.2505e-01, 3.1490e-01, 7.4249e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((4.215,0.4433,0.9282,4.045)) * p_onshell ((4.257,0.4438,0.9302,4.058)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(0.88,0.3251,0.3149,0.7425) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.5862 > m[pi+]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 0.4467) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=0.9931 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 50, Hadron Decay , 1 -> 2 @ (5.387e-11,5.616e-12,1.177e-11,5.135e-11), Sherpa Incoming particles : [D] 2 rho(770)+ 86 ( 10 -> 50) [( 4.2151e+00, 4.4333e-01, 9.2823e-01, 4.0454e+00), p^2= 3.4367e-01, m= 5.8624e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 335 ( 50 -> ) [( 3.4652e+00, 2.1617e-01, 6.8517e-01, 3.3870e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((4.215,0.4433,0.9282,4.045)) * p_onshell ((4.257,0.4438,0.9302,4.058))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=rho(770)+ -> pi+ pi) { Blob [128]( 50, Hadron Decay , 1 -> 2 @ (5.387e-11,5.616e-12,1.177e-11,5.135e-11), Sherpa Incoming particles : [D] 2 rho(770)+ 86 ( 10 -> 50) [( 4.2151e+00, 4.4333e-01, 9.2823e-01, 4.0454e+00), p^2= 3.4367e-01, m= 5.8624e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 335 ( 50 -> ) [( 3.4652e+00, 2.1617e-01, 6.8517e-01, 3.3870e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((4.215,0.4433,0.9282,4.045)) * p_onshell ((4.257,0.4438,0.9302,4.058)) Momentum conserved: (1.033e-14,1.193e-15,2.276e-15,1.088e-14) Define_Dipole::Define_Dipole() { Dipole_FI(1,0,1,1) } Dipole_FI::AddRadiation( rho(770)+ -> pi+ pi ) { nbar: 0.01558 n: 0 accept? 1 <-> 1 = 1 -> accept } Blob [0]( 50, Hadron Decay , 1 -> 2 @ (5.387e-11,5.616e-12,1.177e-11,5.135e-11), Sherpa Incoming particles : [D] 2 rho(770)+ 86 ( 10 -> 50) [( 4.2151e+00, 4.4333e-01, 9.2823e-01, 4.0454e+00), p^2= 3.4367e-01, m= 5.8624e-01] ( 0, 0) Outgoing particles : [D] 1 pi+ 335 ( 50 -> ) [( 3.4652e+00, 2.1617e-01, 6.8517e-01, 3.3870e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((4.215,0.4433,0.9282,4.045)) * p_onshell ((4.257,0.4438,0.9302,4.058)) Momentum conserved: (1.033e-14,1.193e-15,2.276e-15,1.088e-14) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 336) { Blob [128]( 134, Hadron Decay , 1 -> 0 @ (0.000123,4.542e-05,4.4e-05,0.0001037), Sherpa Incoming particles : [D] 1 pi 336 ( 50 -> 134) [( 8.7996e-01, 3.2505e-01, 3.1490e-01, 7.4249e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7499,0.2272,0.2431,0.6584)) * p_onshell ((0.88,0.3251,0.3149,0.7425)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 134, Hadron Decay , 1 -> 2 @ (0.000123,4.542e-05,4.4e-05,0.0001037), Sherpa Incoming particles : [D] 2 pi 336 ( 50 -> 134) [( 8.7996e-01, 3.2505e-01, 3.1490e-01, 7.4249e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 337 ( 134 -> ) [( 6.2828e-01, 2.0612e-01, 2.7962e-01, 5.2351e-01), p^2= 1.3878e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 338 ( 134 -> ) [( 2.5168e-01, 1.1894e-01, 3.5273e-02, 2.1898e-01), p^2= 2.0383e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7499,0.2272,0.2431,0.6584)) * p_onshell ((0.88,0.3251,0.3149,0.7425)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 134, Hadron Decay , 1 -> 2 @ (0.000123,4.542e-05,4.4e-05,0.0001037), Sherpa Incoming particles : [D] 2 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 337 ( 134 -> ) [( 5.3241e-01, 1.3728e-01, 2.2854e-01, 4.6086e-01), p^2= 6.9389e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 338 ( 134 -> ) [( 2.1751e-01, 8.9879e-02, 1.4529e-02, 1.9754e-01), p^2= 9.4055e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7499,0.2272,0.2431,0.6584)) * p_onshell ((0.88,0.3251,0.3149,0.7425))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 134, Hadron Decay , 1 -> 2 @ (0.000123,4.542e-05,4.4e-05,0.0001037), Sherpa Incoming particles : [D] 2 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 337 ( 134 -> ) [( 5.3241e-01, 1.3728e-01, 2.2854e-01, 4.6086e-01), p^2= 6.9389e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 338 ( 134 -> ) [( 2.1751e-01, 8.9879e-02, 1.4529e-02, 1.9754e-01), p^2= 9.4055e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7499,0.2272,0.2431,0.6584)) * p_onshell ((0.88,0.3251,0.3149,0.7425)) Momentum conserved: (-1.499e-15,-2.776e-16,-3.469e-16,-1.055e-15) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 134, Hadron Decay , 1 -> 2 @ (0.000123,4.542e-05,4.4e-05,0.0001037), Sherpa Incoming particles : [D] 2 pi 336 ( 50 -> 134) [( 7.4992e-01, 2.2716e-01, 2.4306e-01, 6.5839e-01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 337 ( 134 -> ) [( 5.3241e-01, 1.3728e-01, 2.2854e-01, 4.6086e-01), p^2= 6.9389e-17, m= 0.0000e+00] ( 0, 0) [D] 1 P 338 ( 134 -> ) [( 2.1751e-01, 8.9879e-02, 1.4529e-02, 1.9754e-01), p^2= 9.4055e-18, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((0.7499,0.2272,0.2431,0.6584)) * p_onshell ((0.88,0.3251,0.3149,0.7425)) Momentum conserved: (-1.499e-15,-2.776e-16,-3.469e-16,-1.055e-15) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 336") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of rho(770)+ 86") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 K+b 125 ( 10 -> ) [( 4.2240e+00, 3.0910e-01,-1.8415e-02, 4.1837e+00), p^2= 2.4372e-01, m= 4.9368e-01] ( 0, 0)") Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 f(0)(1370) 137 ( 10 -> 51) [( 8.6161e+01,-7.2480e-01,-2.2229e-01, 8.6135e+01), p^2= 3.9227e+00, m= 1.9806e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(f(0)(1370) 137) { Blob [128]( 51, Hadron Decay , 1 -> 0 @ (1.222e-12,-1.028e-14,-3.15e-15,1.222e-12), Sherpa Incoming particles : [P] 1 f(0)(1370) 137 ( 10 -> 51) [( 8.6372e+01,-7.2640e-01,-2.2269e-01, 8.6357e+01), p^2= 1.9600e+00, m= 1.9806e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bbfae0) * p_actual ((86.16,-0.7248,-0.2223,86.13)) * p_onshell ((86.37,-0.7264,-0.2227,86.36)) Decay_Handler_Base::FillOnshellDecay() { 10221,211,-211,111,111f(0)(1370) --> pi+ pi+b pi pi 0.2 (0.2 ) GeV Blob [128]( 51, Hadron Decay , 1 -> 4 @ (1.222e-12,-1.028e-14,-3.15e-15,1.222e-12), Sherpa Incoming particles : [P] 2 f(0)(1370) 137 ( 10 -> 51) [( 8.6372e+01,-7.2640e-01,-2.2269e-01, 8.6357e+01), p^2= 1.9600e+00, m= 1.9806e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 339 ( 51 -> ) [( 4.9400e+00,-1.4483e-01, 1.9036e-01, 4.9322e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 340 ( 51 -> ) [( 2.9655e+01, 1.0835e-02,-1.2323e-01, 2.9655e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 341 ( 51 -> ) [( 8.6175e+00,-4.0686e-02,-1.4354e-01, 8.6151e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 342 ( 51 -> ) [( 4.3159e+01,-5.5172e-01,-1.4627e-01, 4.3155e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bbfae0) * p_actual ((86.16,-0.7248,-0.2223,86.13)) * p_onshell ((86.37,-0.7264,-0.2227,86.36)) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(43.16,-0.5517,-0.1463,43.16) } Hadron_Decay_Handler::CreateDecayBlob(pi) { Decay_Table::Select(pi) { 134:*selected=111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV } 149:inpart->Momentum()=(8.617,-0.04069,-0.1435,8.615) } Decay_Handler_Base::SetMasses(4) { Decay_Handler_Base::SetMasses:97("1.981 > m[pi+]=0.1396") Decay_Handler_Base::SetMasses:97("1.841 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0 < m[pi] < 1.701) { 187:mass=0.135 } Decay_Channel::GenerateMass(0 < m[pi] < 1.566) { 187:mass=0.135 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 51, Hadron Decay , 1 -> 4 @ (1.222e-12,-1.028e-14,-3.15e-15,1.222e-12), Sherpa Incoming particles : [D] 2 f(0)(1370) 137 ( 10 -> 51) [( 8.6161e+01,-7.2480e-01,-2.2229e-01, 8.6135e+01), p^2= 3.9227e+00, m= 1.9806e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 339 ( 51 -> ) [( 6.7486e+00,-2.3895e-01, 3.4082e-01, 6.7343e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 340 ( 51 -> ) [( 3.0630e+01, 2.0137e-01,-1.6152e-01, 3.0629e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bbfae0) * p_actual ((86.16,-0.7248,-0.2223,86.13)) * p_onshell ((86.37,-0.7264,-0.2227,86.36))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=f(0)(1370) -> pi+ pi+b pi pi) { Blob [128]( 51, Hadron Decay , 1 -> 4 @ (1.222e-12,-1.028e-14,-3.15e-15,1.222e-12), Sherpa Incoming particles : [D] 2 f(0)(1370) 137 ( 10 -> 51) [( 8.6161e+01,-7.2480e-01,-2.2229e-01, 8.6135e+01), p^2= 3.9227e+00, m= 1.9806e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 339 ( 51 -> ) [( 6.7486e+00,-2.3895e-01, 3.4082e-01, 6.7343e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 340 ( 51 -> ) [( 3.0630e+01, 2.0137e-01,-1.6152e-01, 3.0629e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bbfae0) * p_actual ((86.16,-0.7248,-0.2223,86.13)) * p_onshell ((86.37,-0.7264,-0.2227,86.36)) Momentum conserved: (1.214e-11,-1.019e-13,-3.139e-14,1.212e-11) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,2) } Dipole_FF::AddRadiation( f(0)(1370) -> pi+ pi+b pi pi ) { nbar: 0.1216 n: 0 -> accept } Blob [0]( 51, Hadron Decay , 1 -> 4 @ (1.222e-12,-1.028e-14,-3.15e-15,1.222e-12), Sherpa Incoming particles : [D] 2 f(0)(1370) 137 ( 10 -> 51) [( 8.6161e+01,-7.2480e-01,-2.2229e-01, 8.6135e+01), p^2= 3.9227e+00, m= 1.9806e+00] ( 0, 0) Outgoing particles : [D] 1 pi+ 339 ( 51 -> ) [( 6.7486e+00,-2.3895e-01, 3.4082e-01, 6.7343e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi+b 340 ( 51 -> ) [( 3.0630e+01, 2.0137e-01,-1.6152e-01, 3.0629e+01), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) [D] 1 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) [D] 1 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bbfae0) * p_actual ((86.16,-0.7248,-0.2223,86.13)) * p_onshell ((86.37,-0.7264,-0.2227,86.36)) Momentum conserved: (1.214e-11,-1.019e-13,-3.139e-14,1.212e-11) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 342) { Blob [128]( 135, Hadron Decay , 1 -> 0 @ (0.005456,-6.975e-05,-1.849e-05,0.005455), Sherpa Incoming particles : [D] 1 pi 342 ( 51 -> 135) [( 4.3159e+01,-5.5172e-01,-1.4627e-01, 4.3155e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((39.97,-0.6692,-0.1648,39.96)) * p_onshell ((43.16,-0.5517,-0.1463,43.16)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 135, Hadron Decay , 1 -> 2 @ (0.005456,-6.975e-05,-1.849e-05,0.005455), Sherpa Incoming particles : [D] 2 pi 342 ( 51 -> 135) [( 4.3159e+01,-5.5172e-01,-1.4627e-01, 4.3155e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 343 ( 135 -> ) [( 2.5163e+01,-2.7985e-01,-1.3705e-01, 2.5161e+01), p^2=-2.4197e-13, m= 0.0000e+00] ( 0, 0) [D] 1 P 344 ( 135 -> ) [( 1.7996e+01,-2.7187e-01,-9.2171e-03, 1.7994e+01), p^2= 7.1623e-14, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((39.97,-0.6692,-0.1648,39.96)) * p_onshell ((43.16,-0.5517,-0.1463,43.16)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 135, Hadron Decay , 1 -> 2 @ (0.005456,-6.975e-05,-1.849e-05,0.005455), Sherpa Incoming particles : [D] 2 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 343 ( 135 -> ) [( 2.3265e+01,-3.4764e-01,-1.4772e-01, 2.3262e+01), p^2= 5.7579e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 344 ( 135 -> ) [( 1.6703e+01,-3.2151e-01,-1.7126e-02, 1.6700e+01), p^2=-1.7296e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((39.97,-0.6692,-0.1648,39.96)) * p_onshell ((43.16,-0.5517,-0.1463,43.16))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 135, Hadron Decay , 1 -> 2 @ (0.005456,-6.975e-05,-1.849e-05,0.005455), Sherpa Incoming particles : [D] 2 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 343 ( 135 -> ) [( 2.3265e+01,-3.4764e-01,-1.4772e-01, 2.3262e+01), p^2= 5.7579e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 344 ( 135 -> ) [( 1.6703e+01,-3.2151e-01,-1.7126e-02, 1.6700e+01), p^2=-1.7296e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((39.97,-0.6692,-0.1648,39.96)) * p_onshell ((43.16,-0.5517,-0.1463,43.16)) Momentum conserved: (5.06e-10,-8.479e-12,-2.088e-12,5.059e-10) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 135, Hadron Decay , 1 -> 2 @ (0.005456,-6.975e-05,-1.849e-05,0.005455), Sherpa Incoming particles : [D] 2 pi 342 ( 51 -> 135) [( 3.9968e+01,-6.6915e-01,-1.6485e-01, 3.9962e+01), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 343 ( 135 -> ) [( 2.3265e+01,-3.4764e-01,-1.4772e-01, 2.3262e+01), p^2= 5.7579e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 344 ( 135 -> ) [( 1.6703e+01,-3.2151e-01,-1.7126e-02, 1.6700e+01), p^2=-1.7296e-13, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((39.97,-0.6692,-0.1648,39.96)) * p_onshell ((43.16,-0.5517,-0.1463,43.16)) Momentum conserved: (5.06e-10,-8.479e-12,-2.088e-12,5.059e-10) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 342") } 303:daughters[i]->Flav()=pi+ Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi+b Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=pi Decay_Handler_Base::FillDecayTree:328("decaying with spin density 0x0") Decay_Handler_Base::FillDecayTree(pi 341) { Blob [128]( 136, Hadron Decay , 1 -> 0 @ (0.0001922,-9.073e-07,-3.201e-06,0.0001921), Sherpa Incoming particles : [D] 1 pi 341 ( 51 -> 136) [( 8.6175e+00,-4.0686e-02,-1.4354e-01, 8.6151e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.814,-0.01807,-0.2367,8.81)) * p_onshell ((8.617,-0.04069,-0.1435,8.615)) Decay_Handler_Base::FillOnshellDecay() { 111,22,22 pi --> P P 7.756e-09 (2.669e-12 ) GeV Blob [128]( 136, Hadron Decay , 1 -> 2 @ (0.0001922,-9.073e-07,-3.201e-06,0.0001921), Sherpa Incoming particles : [D] 2 pi 341 ( 51 -> 136) [( 8.6175e+00,-4.0686e-02,-1.4354e-01, 8.6151e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 345 ( 136 -> ) [( 8.3589e+00,-6.0769e-02,-1.3056e-01, 8.3577e+00), p^2= 4.1168e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 346 ( 136 -> ) [( 2.5855e-01, 2.0083e-02,-1.2983e-02, 2.5744e-01), p^2= 3.0710e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.814,-0.01807,-0.2367,8.81)) * p_onshell ((8.617,-0.04069,-0.1435,8.615)) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") Decay_Handler_Base::SetMasses:97("0.135 > m[P]=0") } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=1 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 136, Hadron Decay , 1 -> 2 @ (0.0001922,-9.073e-07,-3.201e-06,0.0001921), Sherpa Incoming particles : [D] 2 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 345 ( 136 -> ) [( 8.5399e+00,-3.8982e-02,-2.2007e-01, 8.5369e+00), p^2= 1.8173e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 346 ( 136 -> ) [( 2.7417e-01, 2.0909e-02,-1.6674e-02, 2.7286e-01), p^2= 3.5833e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.814,-0.01807,-0.2367,8.81)) * p_onshell ((8.617,-0.04069,-0.1435,8.615))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=pi -> P P) { Blob [128]( 136, Hadron Decay , 1 -> 2 @ (0.0001922,-9.073e-07,-3.201e-06,0.0001921), Sherpa Incoming particles : [D] 2 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 345 ( 136 -> ) [( 8.5399e+00,-3.8982e-02,-2.2007e-01, 8.5369e+00), p^2= 1.8173e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 346 ( 136 -> ) [( 2.7417e-01, 2.0909e-02,-1.6674e-02, 2.7286e-01), p^2= 3.5833e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.814,-0.01807,-0.2367,8.81)) * p_onshell ((8.617,-0.04069,-0.1435,8.615)) Momentum conserved: (1.201e-12,-3.011e-15,-3.026e-14,1.207e-12) Define_Dipole::Define_Dipole() { Undefined(0,1,0,2) } Blob [0]( 136, Hadron Decay , 1 -> 2 @ (0.0001922,-9.073e-07,-3.201e-06,0.0001921), Sherpa Incoming particles : [D] 2 pi 341 ( 51 -> 136) [( 8.8140e+00,-1.8073e-02,-2.3675e-01, 8.8098e+00), p^2= 1.8219e-02, m= 1.3498e-01] ( 0, 0) Outgoing particles : [D] 1 P 345 ( 136 -> ) [( 8.5399e+00,-3.8982e-02,-2.2007e-01, 8.5369e+00), p^2= 1.8173e-14, m= 0.0000e+00] ( 0, 0) [D] 1 P 346 ( 136 -> ) [( 2.7417e-01, 2.0909e-02,-1.6674e-02, 2.7286e-01), p^2= 3.5833e-17, m= 0.0000e+00] ( 0, 0) Data_Container: * dc (0x7ffbb4b3f2e0) * p_actual ((8.814,-0.01807,-0.2367,8.81)) * p_onshell ((8.617,-0.04069,-0.1435,8.615)) Momentum conserved: (1.201e-12,-3.011e-15,-3.026e-14,1.207e-12) Added anything? 0 } Decay_Handler_Base::FillDecayTree:298("recursively treating the created daughter decay blobs:") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") 303:daughters[i]->Flav()=P Decay_Handler_Base::FillDecayTree:308("is stable.") Decay_Handler_Base::FillDecayTree:338("finished daughters of pi 341") } Decay_Handler_Base::FillDecayTree:338("finished daughters of f(0)(1370) 137") } Decay_Handler_Base::TreatInitialBlob:213("treating [P] 1 h(1)(1170) 83 ( 10 -> 52) [( 8.5024e+00, 2.9560e-01,-2.6320e-01,-2.0956e+00), p^2= 6.7743e+01, m= 8.2306e+00] ( 0, 0)") Decay_Handler_Base::FillDecayTree(h(1)(1170) 83) { Blob [128]( 52, Hadron Decay , 1 -> 0 @ (1.437e-12,2.242e-13,-9.224e-14,-1.278e-12), Sherpa Incoming particles : [P] 1 h(1)(1170) 83 ( 10 -> 52) [( 2.7516e+00, 4.2944e-01,-1.7666e-01,-2.4468e+00), p^2= 1.3689e+00, m= 8.2306e+00] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4bc51d0) * p_actual ((8.502,0.2956,-0.2632,-2.096)) * p_onshell ((2.752,0.4294,-0.1767,-2.447)) Decay_Handler_Base::FillOnshellDecay() { 10223,213,-211 h(1)(1170) --> rho(770)+ pi+b 0.12 (0.12 ) GeV Blob [128]( 52, Hadron Decay , 1 -> 2 @ (1.437e-12,2.242e-13,-9.224e-14,-1.278e-12), Sherpa Incoming particles : [P] 2 h(1)(1170) 83 ( 10 -> 52) [( 2.7516e+00, 4.2944e-01,-1.7666e-01,-2.4468e+00), p^2= 1.3689e+00, m= 8.2306e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 347 ( 52 -> ) [( 2.5718e+00, 5.2215e-01,-1.3895e-01,-2.3936e+00), p^2= 5.9290e-01, m= 7.7000e-01] ( 0, 0) [D] 1 pi+b 348 ( 52 -> ) [( 1.7979e-01,-9.2712e-02,-3.7708e-02,-5.3186e-02), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc51d0) * p_actual ((8.502,0.2956,-0.2632,-2.096)) * p_onshell ((2.752,0.4294,-0.1767,-2.447)) } Hadron_Decay_Handler::CreateDecayBlob(rho(770)+) { Decay_Table::Select(rho(770)+) { 134:*selected=213,211,111 rho(770)+ --> pi+ pi 0.1506 (7.535e-06 ) GeV } 149:inpart->Momentum()=(2.572,0.5222,-0.139,-2.394) } Decay_Handler_Base::SetMasses(2) { Decay_Handler_Base::SetMasses:97("8.231 > m[pi+b]=0.1396") Decay_Channel::GenerateMass(0.2745 < m[rho(770)+] < 8.091) { 187:mass=0.8242 } } Decay_Handler_Base::BoostAndStretch() { 123:blob->MomentumConserved()=1 131:factor=3.125 140:blob->MomentumConserved()=1 149:blob->MomentumConserved()=1 163:blob->MomentumConserved()=1 } 295:*blob=Blob [128]( 52, Hadron Decay , 1 -> 2 @ (1.437e-12,2.242e-13,-9.224e-14,-1.278e-12), Sherpa Incoming particles : [D] 2 h(1)(1170) 83 ( 10 -> 52) [( 8.5024e+00, 2.9560e-01,-2.6320e-01,-2.0956e+00), p^2= 6.7743e+01, m= 8.2306e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 347 ( 52 -> 137) [( 5.0731e+00, 3.1229e+00, 4.8148e-01,-3.8824e+00), p^2= 6.7931e-01, m= 8.2420e-01] ( 0, 0) [D] 1 pi+b 348 ( 52 -> ) [( 3.4293e+00,-2.8273e+00,-7.4469e-01, 1.7868e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc51d0) * p_actual ((8.502,0.2956,-0.2632,-2.096)) * p_onshell ((2.752,0.4294,-0.1767,-2.447))  Decay_Handler_Base::AttachExtraQED(qedmode=1, shower=0, qed=1, mode=0, process=h(1)(1170) -> rho(770)+ pi+b) { Blob [128]( 52, Hadron Decay , 1 -> 2 @ (1.437e-12,2.242e-13,-9.224e-14,-1.278e-12), Sherpa Incoming particles : [D] 2 h(1)(1170) 83 ( 10 -> 52) [( 8.5024e+00, 2.9560e-01,-2.6320e-01,-2.0956e+00), p^2= 6.7743e+01, m= 8.2306e+00] ( 0, 0) Outgoing particles : [D] 1 rho(770)+ 347 ( 52 -> 137) [( 5.0731e+00, 3.1229e+00, 4.8148e-01,-3.8824e+00), p^2= 6.7931e-01, m= 8.2420e-01] ( 0, 0) [D] 1 pi+b 348 ( 52 -> ) [( 3.4293e+00,-2.8273e+00,-7.4469e-01, 1.7868e+00), p^2= 1.9480e-02, m= 1.3957e-01] ( 0, 0) Data_Container: * dc (0x7ffbb4bc51d0) * p_actual ((8.502,0.2956,-0.2632,-2.096)) * p_onshell ((2.752,0.4294,-0.1767,-2.447)) Momentum conserved: (-3.109e-15,-4.441e-16,2.22e-16,1.776e-15) Define_Dipole::Define_Dipole() { Dipole_FF(0,1,2,0) } Dipole_FF::AddRadiation( h(1)(1170) -> rho(770)+ pi+b ) { nbar: 0.2773 k_i = [0.001 .. 34.66] 0 : 0.02946 n: 1 u: 0.9964 Weight_YFS::Weight_YFS(\Omega_min=0.001) { Y=-0.2186, Ymax=-0.219, nbar=0.2773 } Weight_Jacobian_Mapping::CalculateWeight() { 0.9927 * 1 * 1.007 = 0.9999 } Weight_Higher_Order_Corrections::Weight_Higher_Order_Corrections(1) { ME -> none calc for 1 2 } -> accept } Soft_Photon_Handler::BoostDecayBlob() { Blob [128]( 137, Hadron Decay , 1 -> 0 @ (9.789e-12,1.92e-12,-5.435e-13,-9.051e-12), Sherpa Incoming particles : [D] 1 rho(770)+ 347 ( 52 -> 137) [( 5.0564e+00, 3.1224e+00, 4.7209e-01,-3.8621e+00), p^2= 6.7931e-01, m= 8.2420e-01] ( 0, 0) Outgoing particles : Data_Container: * dc (0x7ffbb4b812a0) * p_actual ((5.073,3.123,0.4815,-3.882)) * p_onshell ((2.572,0.5222,-0.139,-2.394)) Exception_Handler::SignalHandler: Signal (11) caught.   Cannot continue. Exception_Handler::Terminate(): Pre-crash status saved to '/Users/eno/Projekte/scratch/sherpa/yamlread2/Custom_Example/comparison_run/test/Status__Wed_Aug__9_10-31-19_2017'. +-------------------------------------------------+ | | | Total XS is 0 pb +- ( 0 pb = -2.14748e+07 % ) | | | +-------------------------------------------------+ Exception_Handler::Exit: Exiting Sherpa with code (2)[?25h