# Auto generated configuration file # using: # Revision: 1.19 # Source: /local/reps/CMSSW/CMSSW/Configuration/Applications/python/ConfigBuilder.py,v # with command line options: Configuration/GenProduction/python/EXO-RunIISummer20UL16GEN-01119-fragment.py --python_filename EXO-RunIISummer20UL16GEN-01119_1_cfg.py --eventcontent RAWSIM --customise Configuration/DataProcessing/Utils.addMonitoring --datatier GEN --fileout file:EXO-RunIISummer20UL16GEN-01119.root --conditions 106X_mcRun2_asymptotic_v13 --beamspot Realistic25ns13TeV2016Collision --step GEN --geometry DB:Extended --era Run2_2016 --no_exec --mc -n 10000 import FWCore.ParameterSet.Config as cms from Configuration.Eras.Era_Run2_2016_cff import Run2_2016 process = cms.Process('GEN',Run2_2016) # import of standard configurations process.load('Configuration.StandardSequences.Services_cff') process.load('SimGeneral.HepPDTESSource.pythiapdt_cfi') process.load('FWCore.MessageService.MessageLogger_cfi') process.load('Configuration.EventContent.EventContent_cff') process.load('SimGeneral.MixingModule.mixNoPU_cfi') process.load('Configuration.StandardSequences.GeometryRecoDB_cff') process.load('Configuration.StandardSequences.MagneticField_cff') process.load('Configuration.StandardSequences.Generator_cff') process.load('IOMC.EventVertexGenerators.VtxSmearedRealistic25ns13TeV2016Collision_cfi') process.load('GeneratorInterface.Core.genFilterSummary_cff') process.load('Configuration.StandardSequences.EndOfProcess_cff') process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(10000) ) # Input source process.source = cms.Source("EmptySource") process.options = cms.untracked.PSet( ) # Production Info process.configurationMetadata = cms.untracked.PSet( annotation = cms.untracked.string('Configuration/GenProduction/python/EXO-RunIISummer20UL16GEN-01119-fragment.py nevts:10000'), name = cms.untracked.string('Applications'), version = cms.untracked.string('$Revision: 1.19 $') ) # Output definition process.RAWSIMoutput = cms.OutputModule("PoolOutputModule", SelectEvents = cms.untracked.PSet( SelectEvents = cms.vstring('generation_step') ), compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(1), dataset = cms.untracked.PSet( dataTier = cms.untracked.string('GEN'), filterName = cms.untracked.string('') ), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), fileName = cms.untracked.string('file:EXO-RunIISummer20UL16GEN-01119.root'), outputCommands = process.RAWSIMEventContent.outputCommands, splitLevel = cms.untracked.int32(0) ) # Additional output definition # Other statements process.genstepfilter.triggerConditions=cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '106X_mcRun2_asymptotic_v13', '') process.generator = cms.EDFilter("Pythia8ConcurrentGeneratorFilter", PythiaParameters = cms.PSet( parameterSets = cms.vstring( 'pythia8CommonSettings', 'pythia8CP2Settings', 'pythia8PSweightsSettings', 'processParameters' ), processParameters = cms.vstring( 'SUSY:all = off', 'SUSY:gg2gluinogluino = on', 'SUSY:qqbar2gluinogluino = on', 'RHadrons:allow = on', 'RHadrons:allowDecay = on', 'RHadrons:setMasses = on', 'RHadrons:probGluinoball = 0.1', '1000021:tau0 = 100.0' ), pythia8CP2Settings = cms.vstring( 'Tune:pp 14', 'Tune:ee 7', 'MultipartonInteractions:ecmPow=0.1391', 'MultipartonInteractions:bProfile=2', 'MultipartonInteractions:pT0Ref=2.306', 'MultipartonInteractions:coreRadius=0.3755', 'MultipartonInteractions:coreFraction=0.3269', 'ColourReconnection:range=2.323', 'SigmaTotal:zeroAXB=off', 'SpaceShower:rapidityOrder=off', 'SpaceShower:alphaSvalue=0.13', 'TimeShower:alphaSvalue=0.13', 'SigmaTotal:mode = 0', 'SigmaTotal:sigmaEl = 21.89', 'SigmaTotal:sigmaTot = 100.309', 'PDF:pSet=LHAPDF6:NNPDF31_lo_as_0130' ), pythia8CommonSettings = cms.vstring( 'Tune:preferLHAPDF = 2', 'Main:timesAllowErrors = 10000', 'Check:epTolErr = 0.01', 'Beams:setProductionScalesFromLHEF = off', 'SLHA:keepSM = on', 'SLHA:minMassSM = 1000.', 'ParticleDecays:limitTau0 = on', 'ParticleDecays:tau0Max = 10', 'ParticleDecays:allowPhotonRadiation = on' ), pythia8PSweightsSettings = cms.vstring( 'UncertaintyBands:doVariations = on', 'UncertaintyBands:List = {isrRedHi isr:muRfac=0.707,fsrRedHi fsr:muRfac=0.707,isrRedLo isr:muRfac=1.414,fsrRedLo fsr:muRfac=1.414,isrDefHi isr:muRfac=0.5,fsrDefHi fsr:muRfac=0.5,isrDefLo isr:muRfac=2.0,fsrDefLo fsr:muRfac=2.0,isrConHi isr:muRfac=0.25,fsrConHi fsr:muRfac=0.25,isrConLo isr:muRfac=4.0,fsrConLo fsr:muRfac=4.0,fsr_G2GG_muR_dn fsr:G2GG:muRfac=0.5,fsr_G2GG_muR_up fsr:G2GG:muRfac=2.0,fsr_G2QQ_muR_dn fsr:G2QQ:muRfac=0.5,fsr_G2QQ_muR_up fsr:G2QQ:muRfac=2.0,fsr_Q2QG_muR_dn fsr:Q2QG:muRfac=0.5,fsr_Q2QG_muR_up fsr:Q2QG:muRfac=2.0,fsr_X2XG_muR_dn fsr:X2XG:muRfac=0.5,fsr_X2XG_muR_up fsr:X2XG:muRfac=2.0,fsr_G2GG_cNS_dn fsr:G2GG:cNS=-2.0,fsr_G2GG_cNS_up fsr:G2GG:cNS=2.0,fsr_G2QQ_cNS_dn fsr:G2QQ:cNS=-2.0,fsr_G2QQ_cNS_up fsr:G2QQ:cNS=2.0,fsr_Q2QG_cNS_dn fsr:Q2QG:cNS=-2.0,fsr_Q2QG_cNS_up fsr:Q2QG:cNS=2.0,fsr_X2XG_cNS_dn fsr:X2XG:cNS=-2.0,fsr_X2XG_cNS_up fsr:X2XG:cNS=2.0,isr_G2GG_muR_dn isr:G2GG:muRfac=0.5,isr_G2GG_muR_up isr:G2GG:muRfac=2.0,isr_G2QQ_muR_dn isr:G2QQ:muRfac=0.5,isr_G2QQ_muR_up isr:G2QQ:muRfac=2.0,isr_Q2QG_muR_dn isr:Q2QG:muRfac=0.5,isr_Q2QG_muR_up isr:Q2QG:muRfac=2.0,isr_X2XG_muR_dn isr:X2XG:muRfac=0.5,isr_X2XG_muR_up isr:X2XG:muRfac=2.0,isr_G2GG_cNS_dn isr:G2GG:cNS=-2.0,isr_G2GG_cNS_up isr:G2GG:cNS=2.0,isr_G2QQ_cNS_dn isr:G2QQ:cNS=-2.0,isr_G2QQ_cNS_up isr:G2QQ:cNS=2.0,isr_Q2QG_cNS_dn isr:Q2QG:cNS=-2.0,isr_Q2QG_cNS_up isr:Q2QG:cNS=2.0,isr_X2XG_cNS_dn isr:X2XG:cNS=-2.0,isr_X2XG_cNS_up isr:X2XG:cNS=2.0}', 'UncertaintyBands:nFlavQ = 4', 'UncertaintyBands:MPIshowers = on', 'UncertaintyBands:overSampleFSR = 10.0', 'UncertaintyBands:overSampleISR = 10.0', 'UncertaintyBands:FSRpTmin2Fac = 20', 'UncertaintyBands:ISRpTmin2Fac = 1' ) ), SLHATableForPythia8 = cms.string('\n## Important note!\n## This file has been modified by hand to give the gluino and the \n## stop_1 a very narrow width, such that it can be used to try out\n## the R-hadron machinery. It is not a realistic SUSY scenario.\n##\n##******************************************************************\n## MadGraph/MadEvent *\n##******************************************************************\n## *\n## param_card corresponding the SPS point 1a (by SoftSusy 2.0.5) *\n## *\n##******************************************************************\n## Les Houches friendly file for the (MS)SM parameters of MadGraph *\n## SM parameter set and decay widths produced by MSSMCalc *\n##******************************************************************\n##*Please note the following IMPORTANT issues: *\n## *\n##0. REFRAIN from editing this file by hand! Some of the parame- *\n## ters are not independent. Always use a calculator. *\n## *\n##1. alpha_S(MZ) has been used in the calculation of the parameters*\n## This value is KEPT by madgraph when no pdf are used lpp(i)=0, *\n## but, for consistency, it will be reset by madgraph to the *\n## value expected IF the pdfs for collisions with hadrons are *\n## used. *\n## *\n##2. Values of the charm and bottom kinematic (pole) masses are *\n## those used in the matrix elements and phase space UNLESS they *\n## are set to ZERO from the start in the model (particles.dat) *\n## This happens, for example, when using 5-flavor QCD where *\n## charm and bottom are treated as partons in the initial state *\n## and a zero mass might be hardwired in the model definition. *\n## *\n## The SUSY decays have calculated using SDECAY 1.1a *\n## *\n##******************************************************************\n#\nBLOCK DCINFO # Decay Program information\n 1 SDECAY # decay calculator\n 2 1.1a # version number\n#\nBLOCK SPINFO # Spectrum calculator information\n 1 SOFTSUSY # spectrum calculator \n 2 2.0.5 # version number \n#\nBLOCK MODSEL # Model selection\n 1 1 sugra \n#\nBLOCK SMINPUTS # Standard Model inputs\n 1 1.27934000E+02 # alpha_em^-1(M_Z)^MSbar\n 2 1.16637000E-05 # G_F [GeV^-2]\n 3 1.18000000E-01 # alpha_S(M_Z)^MSbar\n 4 9.11876000E+01 # M_Z pole mass\n 5 4.25000000E+00 # mb(mb)^MSbar\n 6 1.75000000E+02 # mt pole mass\n 7 1.77700000E+00 # mtau pole mass\n#\nBLOCK MINPAR # Input parameters - minimal models\n 1 1.00000000E+02 # m0 \n 2 2.50000000E+02 # m12 \n 3 1.00000000E+01 # tanb \n 4 1.00000000E+00 # sign(mu) \n 5 -1.00000000E+02 # A0 \n#\nBLOCK MASS # Mass Spectrum\n# PDG code mass particle\n 5 4.88991651E+00 # b-quark pole mass calculated from mb(mb)_Msbar\n 6 1.75000000E+02 # mt pole mass (not read by ME)\n 24 7.98290131E+01 # W+\n 25 1.25899057E+02 # h\n 35 3.99960116E+05 # H\n 36 3.99583917E+05 # A\n 37 4.07879012E+05 # H+\n 1000001 5.68441109E+05 # ~d_L\n 2000001 5.45228462E+05 # ~d_R\n 1000002 5.61119014E+05 # ~u_L\n 2000002 5.49259265E+05 # ~u_R\n 1000003 5.68441109E+05 # ~s_L\n 2000003 5.45228462E+05 # ~s_R\n 1000004 5.61119014E+05 # ~c_L\n 2000004 5.49259265E+05 # ~c_R\n 1000005 10000000 # ~b_1\n 2000005 5.12315123E+05 # ~b_2\n 1000006 1000000.00 # ~t_1\n 2000006 5.85785818E+05 # ~t_2\n 1000011 2.02915690E+05 # ~e_L\n 2000011 1.44102799E+05 # ~e_R\n 1000012 1.85258326E+05 # ~nu_eL\n 1000013 2.02915690E+05 # ~mu_L\n 2000013 1.44102799E+05 # ~mu_R\n 1000014 1.85258326E+05 # ~nu_muL\n 1000015 1.34490864E+05 # ~tau_1\n 2000015 2.06867805E+05 # ~tau_2\n 1000016 1.84708464E+05 # ~nu_tauL\n 1000021 2200 # ~g\n 1000022 2100 # ~chi_10\n 1000023 1.81088157E+05 # ~chi_20\n 1000025 -3.63756027E+05 # ~chi_30\n 1000035 3.81729382E+05 # ~chi_40\n 1000024 1.81696474E+05 # ~chi_1+\n 1000037 3.79939320E+05 # ~chi_2+\n#\nBLOCK NMIX # Neutralino Mixing Matrix\n 1 1 9.86364430E-01 # N_11\n 1 2 -5.31103553E-02 # N_12\n 1 3 1.46433995E-01 # N_13\n 1 4 -5.31186117E-02 # N_14\n 2 1 9.93505358E-02 # N_21\n 2 2 9.44949299E-01 # N_22\n 2 3 -2.69846720E-01 # N_23\n 2 4 1.56150698E-01 # N_24\n 3 1 -6.03388002E-02 # N_31\n 3 2 8.77004854E-02 # N_32\n 3 3 6.95877493E-01 # N_33\n 3 4 7.10226984E-01 # N_34\n 4 1 -1.16507132E-01 # N_41\n 4 2 3.10739017E-01 # N_42\n 4 3 6.49225960E-01 # N_43\n 4 4 -6.84377823E-01 # N_44\n#\nBLOCK UMIX # Chargino Mixing Matrix U\n 1 1 9.16834859E-01 # U_11\n 1 2 -3.99266629E-01 # U_12\n 2 1 3.99266629E-01 # U_21\n 2 2 9.16834859E-01 # U_22\n#\nBLOCK VMIX # Chargino Mixing Matrix V\n 1 1 9.72557835E-01 # V_11\n 1 2 -2.32661249E-01 # V_12\n 2 1 2.32661249E-01 # V_21\n 2 2 9.72557835E-01 # V_22\n#\nBLOCK STOPMIX # Stop Mixing Matrix\n 1 1 5.53644960E-01 # O_{11}\n 1 2 8.32752820E-01 # O_{12}\n 2 1 8.32752820E-01 # O_{21}\n 2 2 -5.53644960E-01 # O_{22}\n#\nBLOCK SBOTMIX # Sbottom Mixing Matrix\n 1 1 9.38737896E-01 # O_{11}\n 1 2 3.44631925E-01 # O_{12}\n 2 1 -3.44631925E-01 # O_{21}\n 2 2 9.38737896E-01 # O_{22}\n#\nBLOCK STAUMIX # Stau Mixing Matrix\n 1 1 2.82487190E-01 # O_{11}\n 1 2 9.59271071E-01 # O_{12}\n 2 1 9.59271071E-01 # O_{21}\n 2 2 -2.82487190E-01 # O_{22}\n#\nBLOCK ALPHA # Higgs mixing\n -1.13825210E-01 # Mixing angle in the neutral Higgs boson sector\n#\nBLOCK HMIX Q= 4.67034192E+02 # DRbar Higgs Parameters\n 1 3.57680977E+02 # mu(Q)MSSM DRbar \n 2 9.74862403E+00 # tan beta(Q)MSSM DRba\n 3 2.44894549E+02 # higgs vev(Q)MSSM DRb\n 4 1.66439065E+05 # mA^2(Q)MSSM DRbar \n#\nBLOCK GAUGE Q= 4.67034192E+02 # The gauge couplings\n 3 1.10178679E+00 # g3(Q) MSbar\n#\nBLOCK AU Q= 4.67034192E+02 # The trilinear couplings\n 1 1 0.00000000E+00 # A_u(Q) DRbar\n 2 2 0.00000000E+00 # A_c(Q) DRbar\n 3 3 -4.98129778E+02 # A_t(Q) DRbar\n#\nBLOCK AD Q= 4.67034192E+02 # The trilinear couplings\n 1 1 0.00000000E+00 # A_d(Q) DRbar\n 2 2 0.00000000E+00 # A_s(Q) DRbar\n 3 3 -7.97274397E+02 # A_b(Q) DRbar\n#\nBLOCK AE Q= 4.67034192E+02 # The trilinear couplings\n 1 1 0.00000000E+00 # A_e(Q) DRbar\n 2 2 0.00000000E+00 # A_mu(Q) DRbar\n 3 3 -2.51776873E+02 # A_tau(Q) DRbar\n#\nBLOCK YU Q= 4.67034192E+02 # The Yukawa couplings\n 3 3 8.92844550E-01 # y_t(Q) DRbar\n#\nBLOCK YD Q= 4.67034192E+02 # The Yukawa couplings\n 3 3 1.38840206E-01 # y_b(Q) DRbar\n#\nBLOCK YE Q= 4.67034192E+02 # The Yukawa couplings\n 3 3 1.00890810E-01 # y_tau(Q) DRbar\n#\nBLOCK MSOFT Q= 4.67034192E+02 # The soft SUSY breaking masses at the scale Q\n 1 1.01396534E+02 # M_1(Q) \n 2 1.91504241E+02 # M_2(Q) \n 3 5.88263031E+02 # M_3(Q) \n 21 3.23374943E+04 # mH1^2(Q) \n 22 -1.28800134E+05 # mH2^2(Q) \n 31 1.95334764E+02 # meL(Q) \n 32 1.95334764E+02 # mmuL(Q) \n 33 1.94495956E+02 # mtauL(Q) \n 34 1.36494061E+02 # meR(Q) \n 35 1.36494061E+02 # mmuR(Q) \n 36 1.34043428E+02 # mtauR(Q) \n 41 5.47573466E+02 # mqL1(Q) \n 42 5.47573466E+02 # mqL2(Q) \n 43 4.98763839E+02 # mqL3(Q) \n 44 5.29511195E+02 # muR(Q) \n 45 5.29511195E+02 # mcR(Q) \n 46 4.23245877E+02 # mtR(Q) \n 47 5.23148807E+02 # mdR(Q) \n 48 5.23148807E+02 # msR(Q) \n 49 5.19867261E+02 # mbR(Q) \n#\n#\n#\n# =================\n# |The decay table|\n# =================\n#\n# - The multi-body decays for the inos, stops and sbottoms are included.\n#\n# PDG Width\nDECAY 25 1.98610799E-03 # h decays\n# BR NDA ID1 ID2\n 1.45642955E-01 2 15 -15 # BR(H1 -> tau- tau+)\n 8.19070713E-01 2 5 -5 # BR(H1 -> b bb)\n 3.36338173E-02 2 24 -24 # BR(H1 -> W+ W-)\n 1.65251528E-03 2 23 23 # BR(H1 -> Z Z)\n#\n# PDG Width\nDECAY 35 5.74801389E-01 # H decays\n# BR NDA ID1 ID2\n 1.39072676E-01 2 15 -15 # BR(H -> tau- tau+)\n 4.84110879E-02 2 6 -6 # BR(H -> t tb)\n 7.89500067E-01 2 5 -5 # BR(H -> b bb)\n 3.87681171E-03 2 24 -24 # BR(H -> W+ W-)\n 1.80454752E-03 2 23 23 # BR(H -> Z Z)\n 0.00000000E+00 2 24 -37 # BR(H -> W+ H-)\n 0.00000000E+00 2 -24 37 # BR(H -> W- H+)\n 0.00000000E+00 2 37 -37 # BR(H -> H+ H-)\n 1.73348101E-02 2 25 25 # BR(H -> h h)\n 0.00000000E+00 2 36 36 # BR(H -> A A)\n#\n# PDG Width\nDECAY 36 6.32178488E-01 # A decays\n# BR NDA ID1 ID2\n 1.26659725E-01 2 15 -15 # BR(A -> tau- tau+)\n 1.51081526E-01 2 6 -6 # BR(A -> t tb)\n 7.19406137E-01 2 5 -5 # BR(A -> b bb)\n 2.85261228E-03 2 23 25 # BR(A -> Z h)\n 0.00000000E+00 2 23 35 # BR(A -> Z H)\n 0.00000000E+00 2 24 -37 # BR(A -> W+ H-)\n 0.00000000E+00 2 -24 37 # BR(A -> W- H+)\n#\n# PDG Width\nDECAY 37 5.46962813E-01 # H+ decays\n# BR NDA ID1 ID2\n 1.49435135E-01 2 -15 16 # BR(H+ -> tau+ nu_tau)\n 8.46811711E-01 2 6 -5 # BR(H+ -> t bb)\n 3.75315387E-03 2 24 25 # BR(H+ -> W+ h)\n 0.00000000E+00 2 24 35 # BR(H+ -> W+ H)\n 0.00000000E+00 2 24 36 # BR(H+ -> W+ A)\n#\n# PDG Width\nDECAY 1000021 1.97320e-15 # gluino decays\n# BR NDA ID1 ID2\n 2.50000000E-01 3 1000022 -1 1 # BR(~gl -> N1 ubar u)\n 2.50000000E-01 3 1000022 -2 2 # BR(~gl -> N1 dbar d)\n 2.50000000E-01 3 1000022 -3 3 # BR(~gl -> N1 cbar c)\n 2.50000000E-01 3 1000022 -4 4 # BR(~gl -> N1 sbar s)\n# 2.08454202E-02 2 1000001 -1 # BR(~g -> ~d_L db)\n# 2.08454202E-02 2 -1000001 1 # BR(~g -> ~d_L* d )\n# 5.07075274E-02 2 2000001 -1 # BR(~g -> ~d_R db)\n# 5.07075274E-02 2 -2000001 1 # BR(~g -> ~d_R* d )\n# 2.89787767E-02 2 1000002 -2 # BR(~g -> ~u_L ub)\n# 2.89787767E-02 2 -1000002 2 # BR(~g -> ~u_L* u )\n# 4.46872773E-02 2 2000002 -2 # BR(~g -> ~u_R ub)\n# 4.46872773E-02 2 -2000002 2 # BR(~g -> ~u_R* u )\n# 2.08454202E-02 2 1000003 -3 # BR(~g -> ~s_L sb)\n# 2.08454202E-02 2 -1000003 3 # BR(~g -> ~s_L* s )\n# 5.07075274E-02 2 2000003 -3 # BR(~g -> ~s_R sb)\n# 5.07075274E-02 2 -2000003 3 # BR(~g -> ~s_R* s )\n# 2.89787767E-02 2 1000004 -4 # BR(~g -> ~c_L cb)\n# 2.89787767E-02 2 -1000004 4 # BR(~g -> ~c_L* c )\n# 4.46872773E-02 2 2000004 -4 # BR(~g -> ~c_R cb)\n# 4.46872773E-02 2 -2000004 4 # BR(~g -> ~c_R* c )\n# 1.05840237E-01 2 1000005 -5 # BR(~g -> ~b_1 bb)\n# 1.05840237E-01 2 -1000005 5 # BR(~g -> ~b_1* b )\n# 5.56574805E-02 2 2000005 -5 # BR(~g -> ~b_2 bb)\n# 5.56574805E-02 2 -2000005 5 # BR(~g -> ~b_2* b )\n# 4.80642793E-02 2 1000006 -6 # BR(~g -> ~t_1 tb)\n# 4.80642793E-02 2 -1000006 6 # BR(~g -> ~t_1* t )\n# 0.00000000E+00 2 2000006 -6 # BR(~g -> ~t_2 tb)\n# 0.00000000E+00 2 -2000006 6 # BR(~g -> ~t_2* t )\n#\n# PDG Width\nDECAY 1000006 1.97326971684839e-14 # stop1 decays\n# BR NDA ID1 ID2\n 5.0E-01 2 -5 -1\n 5.0E-01 2 -5 -3\n# 3.33333333E-01 2 5 -11\n# 3.33333333E-01 2 5 -13\n# 3.33333333E-01 2 5 -15\n# 1.92947616E-01 2 1000022 6 # BR(~t_1 -> ~chi_10 t )\n# 1.17469211E-01 2 1000023 6 # BR(~t_1 -> ~chi_20 t )\n# 0.00000000E+00 2 1000025 6 # BR(~t_1 -> ~chi_30 t )\n# 0.00000000E+00 2 1000035 6 # BR(~t_1 -> ~chi_40 t )\n# 6.75747693E-01 2 1000024 5 # BR(~t_1 -> ~chi_1+ b )\n# 1.38354802E-02 2 1000037 5 # BR(~t_1 -> ~chi_2+ b )\n# 0.00000000E+00 2 1000021 6 # BR(~t_1 -> ~g t )\n# 0.00000000E+00 2 1000005 37 # BR(~t_1 -> ~b_1 H+)\n# 0.00000000E+00 2 2000005 37 # BR(~t_1 -> ~b_2 H+)\n# 0.00000000E+00 2 1000005 24 # BR(~t_1 -> ~b_1 W+)\n# 0.00000000E+00 2 2000005 24 # BR(~t_1 -> ~b_2 W+)\n#\n# PDG Width\nDECAY 2000006 7.37313275E+00 # stop2 decays\n# BR NDA ID1 ID2\n 2.96825635E-02 2 1000022 6 # BR(~t_2 -> ~chi_10 t )\n 8.68035358E-02 2 1000023 6 # BR(~t_2 -> ~chi_20 t )\n 4.18408351E-02 2 1000025 6 # BR(~t_2 -> ~chi_30 t )\n 1.93281647E-01 2 1000035 6 # BR(~t_2 -> ~chi_40 t )\n 2.19632356E-01 2 1000024 5 # BR(~t_2 -> ~chi_1+ b )\n 2.02206148E-01 2 1000037 5 # BR(~t_2 -> ~chi_2+ b )\n 0.00000000E+00 2 1000021 6 # BR(~t_2 -> ~g t )\n 3.66397706E-02 2 1000006 25 # BR(~t_2 -> ~t_1 h )\n 0.00000000E+00 2 1000006 35 # BR(~t_2 -> ~t_1 H )\n 0.00000000E+00 2 1000006 36 # BR(~t_2 -> ~t_1 A )\n 0.00000000E+00 2 1000005 37 # BR(~t_2 -> ~b_1 H+)\n 0.00000000E+00 2 2000005 37 # BR(~t_2 -> ~b_2 H+)\n 1.89913144E-01 2 1000006 23 # BR(~t_2 -> ~t_1 Z )\n 0.00000000E+00 2 1000005 24 # BR(~t_2 -> ~b_1 W+)\n 0.00000000E+00 2 2000005 24 # BR(~t_2 -> ~b_2 W+)\n#\n# PDG Width\nDECAY 1000005 1.97326971684839e-14 # sbottom1 decays\n# BR NDA ID1 ID2\n 0.33333333 2 1 12\n 0.33333333 2 1 14\n 0.33333333 2 1 16\n# 4.43307074E-02 2 1000022 5 # BR(~b_1 -> ~chi_10 b )\n# 3.56319904E-01 2 1000023 5 # BR(~b_1 -> ~chi_20 b )\n# 5.16083795E-03 2 1000025 5 # BR(~b_1 -> ~chi_30 b )\n# 1.04105080E-02 2 1000035 5 # BR(~b_1 -> ~chi_40 b )\n# 4.45830064E-01 2 -1000024 6 # BR(~b_1 -> ~chi_1- t )\n# 0.00000000E+00 2 -1000037 6 # BR(~b_1 -> ~chi_2- t )\n# 0.00000000E+00 2 1000021 5 # BR(~b_1 -> ~g b )\n# 0.00000000E+00 2 1000006 -37 # BR(~b_1 -> ~t_1 H-)\n# 0.00000000E+00 2 2000006 -37 # BR(~b_1 -> ~t_2 H-)\n# 1.37947979E-01 2 1000006 -24 # BR(~b_1 -> ~t_1 W-)\n# 0.00000000E+00 2 2000006 -24 # BR(~b_1 -> ~t_2 W-)\n#\n# PDG Width\nDECAY 2000005 8.01566294E-01 # sbottom2 decays\n# BR NDA ID1 ID2\n 2.86200590E-01 2 1000022 5 # BR(~b_2 -> ~chi_10 b )\n 1.40315912E-01 2 1000023 5 # BR(~b_2 -> ~chi_20 b )\n 5.32635592E-02 2 1000025 5 # BR(~b_2 -> ~chi_30 b )\n 7.48748121E-02 2 1000035 5 # BR(~b_2 -> ~chi_40 b )\n 1.79734294E-01 2 -1000024 6 # BR(~b_2 -> ~chi_1- t )\n 0.00000000E+00 2 -1000037 6 # BR(~b_2 -> ~chi_2- t )\n 0.00000000E+00 2 1000021 5 # BR(~b_2 -> ~g b )\n 0.00000000E+00 2 1000005 25 # BR(~b_2 -> ~b_1 h )\n 0.00000000E+00 2 1000005 35 # BR(~b_2 -> ~b_1 H )\n 0.00000000E+00 2 1000005 36 # BR(~b_2 -> ~b_1 A )\n 0.00000000E+00 2 1000006 -37 # BR(~b_2 -> ~t_1 H-)\n 0.00000000E+00 2 2000006 -37 # BR(~b_2 -> ~t_2 H-)\n 0.00000000E+00 2 1000005 23 # BR(~b_2 -> ~b_1 Z )\n 2.65610832E-01 2 1000006 -24 # BR(~b_2 -> ~t_1 W-)\n 0.00000000E+00 2 2000006 -24 # BR(~b_2 -> ~t_2 W-)\n#\n# PDG Width\nDECAY 1000002 5.47719539E+00 # sup_L decays\n# BR NDA ID1 ID2\n 6.65240987E-03 2 1000022 2 # BR(~u_L -> ~chi_10 u)\n 3.19051458E-01 2 1000023 2 # BR(~u_L -> ~chi_20 u)\n 8.44929059E-04 2 1000025 2 # BR(~u_L -> ~chi_30 u)\n 1.03485173E-02 2 1000035 2 # BR(~u_L -> ~chi_40 u)\n 6.49499518E-01 2 1000024 1 # BR(~u_L -> ~chi_1+ d)\n 1.36031676E-02 2 1000037 1 # BR(~u_L -> ~chi_2+ d)\n 0.00000000E+00 2 1000021 2 # BR(~u_L -> ~g u)\n#\n# PDG Width\nDECAY 2000002 1.15297292E+00 # sup_R decays\n# BR NDA ID1 ID2\n 9.86377420E-01 2 1000022 2 # BR(~u_R -> ~chi_10 u)\n 8.46640647E-03 2 1000023 2 # BR(~u_R -> ~chi_20 u)\n 1.23894695E-03 2 1000025 2 # BR(~u_R -> ~chi_30 u)\n 3.91722611E-03 2 1000035 2 # BR(~u_R -> ~chi_40 u)\n 0.00000000E+00 2 1000024 1 # BR(~u_R -> ~chi_1+ d)\n 0.00000000E+00 2 1000037 1 # BR(~u_R -> ~chi_2+ d)\n 0.00000000E+00 2 1000021 2 # BR(~u_R -> ~g u)\n#\n# PDG Width\nDECAY 1000001 5.31278772E+00 # sdown_L decays\n# BR NDA ID1 ID2\n 2.32317969E-02 2 1000022 1 # BR(~d_L -> ~chi_10 d)\n 3.10235077E-01 2 1000023 1 # BR(~d_L -> ~chi_20 d)\n 1.52334771E-03 2 1000025 1 # BR(~d_L -> ~chi_30 d)\n 1.48849798E-02 2 1000035 1 # BR(~d_L -> ~chi_40 d)\n 6.06452481E-01 2 -1000024 2 # BR(~d_L -> ~chi_1- u)\n 4.36723179E-02 2 -1000037 2 # BR(~d_L -> ~chi_2- u)\n 0.00000000E+00 2 1000021 1 # BR(~d_L -> ~g d)\n#\n# PDG Width\nDECAY 2000001 2.85812308E-01 # sdown_R decays\n# BR NDA ID1 ID2\n 9.86529614E-01 2 1000022 1 # BR(~d_R -> ~chi_10 d)\n 8.44510350E-03 2 1000023 1 # BR(~d_R -> ~chi_20 d)\n 1.21172119E-03 2 1000025 1 # BR(~d_R -> ~chi_30 d)\n 3.81356102E-03 2 1000035 1 # BR(~d_R -> ~chi_40 d)\n 0.00000000E+00 2 -1000024 2 # BR(~d_R -> ~chi_1- u)\n 0.00000000E+00 2 -1000037 2 # BR(~d_R -> ~chi_2- u)\n 0.00000000E+00 2 1000021 1 # BR(~d_R -> ~g d)\n#\n# PDG Width\nDECAY 1000004 5.47719539E+00 # scharm_L decays\n# BR NDA ID1 ID2\n 6.65240987E-03 2 1000022 4 # BR(~c_L -> ~chi_10 c)\n 3.19051458E-01 2 1000023 4 # BR(~c_L -> ~chi_20 c)\n 8.44929059E-04 2 1000025 4 # BR(~c_L -> ~chi_30 c)\n 1.03485173E-02 2 1000035 4 # BR(~c_L -> ~chi_40 c)\n 6.49499518E-01 2 1000024 3 # BR(~c_L -> ~chi_1+ s)\n 1.36031676E-02 2 1000037 3 # BR(~c_L -> ~chi_2+ s)\n 0.00000000E+00 2 1000021 4 # BR(~c_L -> ~g c)\n#\n# PDG Width\nDECAY 2000004 1.15297292E+00 # scharm_R decays\n# BR NDA ID1 ID2\n 9.86377420E-01 2 1000022 4 # BR(~c_R -> ~chi_10 c)\n 8.46640647E-03 2 1000023 4 # BR(~c_R -> ~chi_20 c)\n 1.23894695E-03 2 1000025 4 # BR(~c_R -> ~chi_30 c)\n 3.91722611E-03 2 1000035 4 # BR(~c_R -> ~chi_40 c)\n 0.00000000E+00 2 1000024 3 # BR(~c_R -> ~chi_1+ s)\n 0.00000000E+00 2 1000037 3 # BR(~c_R -> ~chi_2+ s)\n 0.00000000E+00 2 1000021 4 # BR(~c_R -> ~g c)\n#\n# PDG Width\nDECAY 1000003 5.31278772E+00 # sstrange_L decays\n# BR NDA ID1 ID2\n 2.32317969E-02 2 1000022 3 # BR(~s_L -> ~chi_10 s)\n 3.10235077E-01 2 1000023 3 # BR(~s_L -> ~chi_20 s)\n 1.52334771E-03 2 1000025 3 # BR(~s_L -> ~chi_30 s)\n 1.48849798E-02 2 1000035 3 # BR(~s_L -> ~chi_40 s)\n 6.06452481E-01 2 -1000024 4 # BR(~s_L -> ~chi_1- c)\n 4.36723179E-02 2 -1000037 4 # BR(~s_L -> ~chi_2- c)\n 0.00000000E+00 2 1000021 3 # BR(~s_L -> ~g s)\n#\n# PDG Width\nDECAY 2000003 2.85812308E-01 # sstrange_R decays\n# BR NDA ID1 ID2\n 9.86529614E-01 2 1000022 3 # BR(~s_R -> ~chi_10 s)\n 8.44510350E-03 2 1000023 3 # BR(~s_R -> ~chi_20 s)\n 1.21172119E-03 2 1000025 3 # BR(~s_R -> ~chi_30 s)\n 3.81356102E-03 2 1000035 3 # BR(~s_R -> ~chi_40 s)\n 0.00000000E+00 2 -1000024 4 # BR(~s_R -> ~chi_1- c)\n 0.00000000E+00 2 -1000037 4 # BR(~s_R -> ~chi_2- c)\n 0.00000000E+00 2 1000021 3 # BR(~s_R -> ~g s)\n#\n# PDG Width\nDECAY 1000011 2.13682161E-01 # selectron_L decays\n# BR NDA ID1 ID2\n 5.73155386E-01 2 1000022 11 # BR(~e_L -> ~chi_10 e-)\n 1.64522579E-01 2 1000023 11 # BR(~e_L -> ~chi_20 e-)\n 0.00000000E+00 2 1000025 11 # BR(~e_L -> ~chi_30 e-)\n 0.00000000E+00 2 1000035 11 # BR(~e_L -> ~chi_40 e-)\n 2.62322035E-01 2 -1000024 12 # BR(~e_L -> ~chi_1- nu_e)\n 0.00000000E+00 2 -1000037 12 # BR(~e_L -> ~chi_2- nu_e)\n#\n# PDG Width\nDECAY 2000011 2.16121626E-01 # selectron_R decays\n# BR NDA ID1 ID2\n 1.00000000E+00 2 1000022 11 # BR(~e_R -> ~chi_10 e-)\n 0.00000000E+00 2 1000023 11 # BR(~e_R -> ~chi_20 e-)\n 0.00000000E+00 2 1000025 11 # BR(~e_R -> ~chi_30 e-)\n 0.00000000E+00 2 1000035 11 # BR(~e_R -> ~chi_40 e-)\n 0.00000000E+00 2 -1000024 12 # BR(~e_R -> ~chi_1- nu_e)\n 0.00000000E+00 2 -1000037 12 # BR(~e_R -> ~chi_2- nu_e)\n#\n# PDG Width\nDECAY 1000013 2.13682161E-01 # smuon_L decays\n# BR NDA ID1 ID2\n 5.73155386E-01 2 1000022 13 # BR(~mu_L -> ~chi_10 mu-)\n 1.64522579E-01 2 1000023 13 # BR(~mu_L -> ~chi_20 mu-)\n 0.00000000E+00 2 1000025 13 # BR(~mu_L -> ~chi_30 mu-)\n 0.00000000E+00 2 1000035 13 # BR(~mu_L -> ~chi_40 mu-)\n 2.62322035E-01 2 -1000024 14 # BR(~mu_L -> ~chi_1- nu_mu)\n 0.00000000E+00 2 -1000037 14 # BR(~mu_L -> ~chi_2- nu_mu)\n#\n# PDG Width\nDECAY 2000013 2.16121626E-01 # smuon_R decays\n# BR NDA ID1 ID2\n 1.00000000E+00 2 1000022 13 # BR(~mu_R -> ~chi_10 mu-)\n 0.00000000E+00 2 1000023 13 # BR(~mu_R -> ~chi_20 mu-)\n 0.00000000E+00 2 1000025 13 # BR(~mu_R -> ~chi_30 mu-)\n 0.00000000E+00 2 1000035 13 # BR(~mu_R -> ~chi_40 mu-)\n 0.00000000E+00 2 -1000024 14 # BR(~mu_R -> ~chi_1- nu_mu)\n 0.00000000E+00 2 -1000037 14 # BR(~mu_R -> ~chi_2- nu_mu)\n#\n# PDG Width\nDECAY 1000015 1.48327268E-01 # stau_1 decays\n# BR NDA ID1 ID2\n 1.00000000E+00 2 1000022 15 # BR(~tau_1 -> ~chi_10 tau-)\n 0.00000000E+00 2 1000023 15 # BR(~tau_1 -> ~chi_20 tau-)\n 0.00000000E+00 2 1000025 15 # BR(~tau_1 -> ~chi_30 tau-)\n 0.00000000E+00 2 1000035 15 # BR(~tau_1 -> ~chi_40 tau-)\n 0.00000000E+00 2 -1000024 16 # BR(~tau_1 -> ~chi_1- nu_tau)\n 0.00000000E+00 2 -1000037 16 # BR(~tau_1 -> ~chi_2- nu_tau)\n 0.00000000E+00 2 1000016 -37 # BR(~tau_1 -> ~nu_tauL H-)\n 0.00000000E+00 2 1000016 -24 # BR(~tau_1 -> ~nu_tauL W-)\n#\n# PDG Width\nDECAY 2000015 2.69906096E-01 # stau_2 decays\n# BR NDA ID1 ID2\n 5.96653046E-01 2 1000022 15 # BR(~tau_2 -> ~chi_10 tau-)\n 1.54536760E-01 2 1000023 15 # BR(~tau_2 -> ~chi_20 tau-)\n 0.00000000E+00 2 1000025 15 # BR(~tau_2 -> ~chi_30 tau-)\n 0.00000000E+00 2 1000035 15 # BR(~tau_2 -> ~chi_40 tau-)\n 2.48810195E-01 2 -1000024 16 # BR(~tau_2 -> ~chi_1- nu_tau)\n 0.00000000E+00 2 -1000037 16 # BR(~tau_2 -> ~chi_2- nu_tau)\n 0.00000000E+00 2 1000016 -37 # BR(~tau_2 -> ~nu_tauL H-)\n 0.00000000E+00 2 1000016 -24 # BR(~tau_2 -> ~nu_tauL W-)\n 0.00000000E+00 2 1000015 25 # BR(~tau_2 -> ~tau_1 h)\n 0.00000000E+00 2 1000015 35 # BR(~tau_2 -> ~tau_1 H)\n 0.00000000E+00 2 1000015 36 # BR(~tau_2 -> ~tau_1 A)\n 0.00000000E+00 2 1000015 23 # BR(~tau_2 -> ~tau_1 Z)\n#\n# PDG Width\nDECAY 1000012 1.49881634E-01 # snu_eL decays\n# BR NDA ID1 ID2\n 9.77700764E-01 2 1000022 12 # BR(~nu_eL -> ~chi_10 nu_e)\n 8.11554922E-03 2 1000023 12 # BR(~nu_eL -> ~chi_20 nu_e)\n 0.00000000E+00 2 1000025 12 # BR(~nu_eL -> ~chi_30 nu_e)\n 0.00000000E+00 2 1000035 12 # BR(~nu_eL -> ~chi_40 nu_e)\n 1.41836867E-02 2 1000024 11 # BR(~nu_eL -> ~chi_1+ e-)\n 0.00000000E+00 2 1000037 11 # BR(~nu_eL -> ~chi_2+ e-)\n#\n# PDG Width\nDECAY 1000014 1.49881634E-01 # snu_muL decays\n# BR NDA ID1 ID2\n 9.77700764E-01 2 1000022 14 # BR(~nu_muL -> ~chi_10 nu_mu)\n 8.11554922E-03 2 1000023 14 # BR(~nu_muL -> ~chi_20 nu_mu)\n 0.00000000E+00 2 1000025 14 # BR(~nu_muL -> ~chi_30 nu_mu)\n 0.00000000E+00 2 1000035 14 # BR(~nu_muL -> ~chi_40 nu_mu)\n 1.41836867E-02 2 1000024 13 # BR(~nu_muL -> ~chi_1+ mu-)\n 0.00000000E+00 2 1000037 13 # BR(~nu_muL -> ~chi_2+ mu-)\n#\n# PDG Width\nDECAY 1000016 1.47518977E-01 # snu_tauL decays\n# BR NDA ID1 ID2\n 9.85994529E-01 2 1000022 16 # BR(~nu_tauL -> ~chi_10 nu_tau)\n 6.25129612E-03 2 1000023 16 # BR(~nu_tauL -> ~chi_20 nu_tau)\n 0.00000000E+00 2 1000025 16 # BR(~nu_tauL -> ~chi_30 nu_tau)\n 0.00000000E+00 2 1000035 16 # BR(~nu_tauL -> ~chi_40 nu_tau)\n 7.75417479E-03 2 1000024 15 # BR(~nu_tauL -> ~chi_1+ tau-)\n 0.00000000E+00 2 1000037 15 # BR(~nu_tauL -> ~chi_2+ tau-)\n 0.00000000E+00 2 -1000015 -37 # BR(~nu_tauL -> ~tau_1+ H-)\n 0.00000000E+00 2 -2000015 -37 # BR(~nu_tauL -> ~tau_2+ H-)\n 0.00000000E+00 2 -1000015 -24 # BR(~nu_tauL -> ~tau_1+ W-)\n 0.00000000E+00 2 -2000015 -24 # BR(~nu_tauL -> ~tau_2+ W-)\n#\n# PDG Width\nDECAY 1000024 1.70414503E-02 # chargino1+ decays\n# BR NDA ID1 ID2\n 0.00000000E+00 2 1000002 -1 # BR(~chi_1+ -> ~u_L db)\n 0.00000000E+00 2 2000002 -1 # BR(~chi_1+ -> ~u_R db)\n 0.00000000E+00 2 -1000001 2 # BR(~chi_1+ -> ~d_L* u )\n 0.00000000E+00 2 -2000001 2 # BR(~chi_1+ -> ~d_R* u )\n 0.00000000E+00 2 1000004 -3 # BR(~chi_1+ -> ~c_L sb)\n 0.00000000E+00 2 2000004 -3 # BR(~chi_1+ -> ~c_R sb)\n 0.00000000E+00 2 -1000003 4 # BR(~chi_1+ -> ~s_L* c )\n 0.00000000E+00 2 -2000003 4 # BR(~chi_1+ -> ~s_R* c )\n 0.00000000E+00 2 1000006 -5 # BR(~chi_1+ -> ~t_1 bb)\n 0.00000000E+00 2 2000006 -5 # BR(~chi_1+ -> ~t_2 bb)\n 0.00000000E+00 2 -1000005 6 # BR(~chi_1+ -> ~b_1* t )\n 0.00000000E+00 2 -2000005 6 # BR(~chi_1+ -> ~b_2* t )\n 0.00000000E+00 2 1000012 -11 # BR(~chi_1+ -> ~nu_eL e+ )\n 0.00000000E+00 2 1000014 -13 # BR(~chi_1+ -> ~nu_muL mu+ )\n 0.00000000E+00 2 1000016 -15 # BR(~chi_1+ -> ~nu_tau1 tau+)\n 0.00000000E+00 2 -1000011 12 # BR(~chi_1+ -> ~e_L+ nu_e)\n 0.00000000E+00 2 -2000011 12 # BR(~chi_1+ -> ~e_R+ nu_e)\n 0.00000000E+00 2 -1000013 14 # BR(~chi_1+ -> ~mu_L+ nu_mu)\n 0.00000000E+00 2 -2000013 14 # BR(~chi_1+ -> ~mu_R+ nu_mu)\n 9.25161117E-01 2 -1000015 16 # BR(~chi_1+ -> ~tau_1+ nu_tau)\n 0.00000000E+00 2 -2000015 16 # BR(~chi_1+ -> ~tau_2+ nu_tau)\n 7.48388828E-02 2 1000022 24 # BR(~chi_1+ -> ~chi_10 W+)\n 0.00000000E+00 2 1000023 24 # BR(~chi_1+ -> ~chi_20 W+)\n 0.00000000E+00 2 1000025 24 # BR(~chi_1+ -> ~chi_30 W+)\n 0.00000000E+00 2 1000035 24 # BR(~chi_1+ -> ~chi_40 W+)\n 0.00000000E+00 2 1000022 37 # BR(~chi_1+ -> ~chi_10 H+)\n 0.00000000E+00 2 1000023 37 # BR(~chi_1+ -> ~chi_20 H+)\n 0.00000000E+00 2 1000025 37 # BR(~chi_1+ -> ~chi_30 H+)\n 0.00000000E+00 2 1000035 37 # BR(~chi_1+ -> ~chi_40 H+)\n#\n# PDG Width\nDECAY 1000037 2.48689510E+00 # chargino2+ decays\n# BR NDA ID1 ID2\n 0.00000000E+00 2 1000002 -1 # BR(~chi_2+ -> ~u_L db)\n 0.00000000E+00 2 2000002 -1 # BR(~chi_2+ -> ~u_R db)\n 0.00000000E+00 2 -1000001 2 # BR(~chi_2+ -> ~d_L* u )\n 0.00000000E+00 2 -2000001 2 # BR(~chi_2+ -> ~d_R* u )\n 0.00000000E+00 2 1000004 -3 # BR(~chi_2+ -> ~c_L sb)\n 0.00000000E+00 2 2000004 -3 # BR(~chi_2+ -> ~c_R sb)\n 0.00000000E+00 2 -1000003 4 # BR(~chi_2+ -> ~s_L* c )\n 0.00000000E+00 2 -2000003 4 # BR(~chi_2+ -> ~s_R* c )\n 0.00000000E+00 2 1000006 -5 # BR(~chi_2+ -> ~t_1 bb)\n 0.00000000E+00 2 2000006 -5 # BR(~chi_2+ -> ~t_2 bb)\n 0.00000000E+00 2 -1000005 6 # BR(~chi_2+ -> ~b_1* t )\n 0.00000000E+00 2 -2000005 6 # BR(~chi_2+ -> ~b_2* t )\n 2.00968837E-02 2 1000012 -11 # BR(~chi_2+ -> ~nu_eL e+ )\n 2.00968837E-02 2 1000014 -13 # BR(~chi_2+ -> ~nu_muL mu+ )\n 2.74507395E-02 2 1000016 -15 # BR(~chi_2+ -> ~nu_tau1 tau+)\n 5.20406111E-02 2 -1000011 12 # BR(~chi_2+ -> ~e_L+ nu_e)\n 0.00000000E+00 2 -2000011 12 # BR(~chi_2+ -> ~e_R+ nu_e)\n 5.20406111E-02 2 -1000013 14 # BR(~chi_2+ -> ~mu_L+ nu_mu)\n 0.00000000E+00 2 -2000013 14 # BR(~chi_2+ -> ~mu_R+ nu_mu)\n 2.82859898E-04 2 -1000015 16 # BR(~chi_2+ -> ~tau_1+ nu_tau)\n 5.66729336E-02 2 -2000015 16 # BR(~chi_2+ -> ~tau_2+ nu_tau)\n 2.31513269E-01 2 1000024 23 # BR(~chi_2+ -> ~chi_1+ Z )\n 6.76715120E-02 2 1000022 24 # BR(~chi_2+ -> ~chi_10 W+)\n 2.93654849E-01 2 1000023 24 # BR(~chi_2+ -> ~chi_20 W+)\n 0.00000000E+00 2 1000025 24 # BR(~chi_2+ -> ~chi_30 W+)\n 0.00000000E+00 2 1000035 24 # BR(~chi_2+ -> ~chi_40 W+)\n 1.78478848E-01 2 1000024 25 # BR(~chi_2+ -> ~chi_1+ h )\n 0.00000000E+00 2 1000024 35 # BR(~chi_2+ -> ~chi_1+ H )\n 0.00000000E+00 2 1000024 36 # BR(~chi_2+ -> ~chi_1+ A )\n 0.00000000E+00 2 1000022 37 # BR(~chi_2+ -> ~chi_10 H+)\n 0.00000000E+00 2 1000023 37 # BR(~chi_2+ -> ~chi_20 H+)\n 0.00000000E+00 2 1000025 37 # BR(~chi_2+ -> ~chi_30 H+)\n 0.00000000E+00 2 1000035 37 # BR(~chi_2+ -> ~chi_40 H+)\n#\n# PDG Width\nDECAY 1000022 0.00000000E+00 # neutralino1 decays\n#\n# PDG Width\nDECAY 1000023 2.07770048E-02 # neutralino2 decays\n# BR NDA ID1 ID2\n 0.00000000E+00 2 1000022 23 # BR(~chi_20 -> ~chi_10 Z )\n 0.00000000E+00 2 1000024 -24 # BR(~chi_20 -> ~chi_1+ W-)\n 0.00000000E+00 2 -1000024 24 # BR(~chi_20 -> ~chi_1- W+)\n 0.00000000E+00 2 1000037 -24 # BR(~chi_20 -> ~chi_2+ W-)\n 0.00000000E+00 2 -1000037 24 # BR(~chi_20 -> ~chi_2- W+)\n 0.00000000E+00 2 1000022 25 # BR(~chi_20 -> ~chi_10 h )\n 0.00000000E+00 2 1000022 35 # BR(~chi_20 -> ~chi_10 H )\n 0.00000000E+00 2 1000022 36 # BR(~chi_20 -> ~chi_10 A )\n 0.00000000E+00 2 1000024 -37 # BR(~chi_20 -> ~chi_1+ H-)\n 0.00000000E+00 2 -1000024 37 # BR(~chi_20 -> ~chi_1- H+)\n 0.00000000E+00 2 1000037 -37 # BR(~chi_20 -> ~chi_2+ H-)\n 0.00000000E+00 2 -1000037 37 # BR(~chi_20 -> ~chi_2- H+)\n 0.00000000E+00 2 1000002 -2 # BR(~chi_20 -> ~u_L ub)\n 0.00000000E+00 2 -1000002 2 # BR(~chi_20 -> ~u_L* u )\n 0.00000000E+00 2 2000002 -2 # BR(~chi_20 -> ~u_R ub)\n 0.00000000E+00 2 -2000002 2 # BR(~chi_20 -> ~u_R* u )\n 0.00000000E+00 2 1000001 -1 # BR(~chi_20 -> ~d_L db)\n 0.00000000E+00 2 -1000001 1 # BR(~chi_20 -> ~d_L* d )\n 0.00000000E+00 2 2000001 -1 # BR(~chi_20 -> ~d_R db)\n 0.00000000E+00 2 -2000001 1 # BR(~chi_20 -> ~d_R* d )\n 0.00000000E+00 2 1000004 -4 # BR(~chi_20 -> ~c_L cb)\n 0.00000000E+00 2 -1000004 4 # BR(~chi_20 -> ~c_L* c )\n 0.00000000E+00 2 2000004 -4 # BR(~chi_20 -> ~c_R cb)\n 0.00000000E+00 2 -2000004 4 # BR(~chi_20 -> ~c_R* c )\n 0.00000000E+00 2 1000003 -3 # BR(~chi_20 -> ~s_L sb)\n 0.00000000E+00 2 -1000003 3 # BR(~chi_20 -> ~s_L* s )\n 0.00000000E+00 2 2000003 -3 # BR(~chi_20 -> ~s_R sb)\n 0.00000000E+00 2 -2000003 3 # BR(~chi_20 -> ~s_R* s )\n 0.00000000E+00 2 1000006 -6 # BR(~chi_20 -> ~t_1 tb)\n 0.00000000E+00 2 -1000006 6 # BR(~chi_20 -> ~t_1* t )\n 0.00000000E+00 2 2000006 -6 # BR(~chi_20 -> ~t_2 tb)\n 0.00000000E+00 2 -2000006 6 # BR(~chi_20 -> ~t_2* t )\n 0.00000000E+00 2 1000005 -5 # BR(~chi_20 -> ~b_1 bb)\n 0.00000000E+00 2 -1000005 5 # BR(~chi_20 -> ~b_1* b )\n 0.00000000E+00 2 2000005 -5 # BR(~chi_20 -> ~b_2 bb)\n 0.00000000E+00 2 -2000005 5 # BR(~chi_20 -> ~b_2* b )\n 0.00000000E+00 2 1000011 -11 # BR(~chi_20 -> ~e_L- e+)\n 0.00000000E+00 2 -1000011 11 # BR(~chi_20 -> ~e_L+ e-)\n 2.95071995E-02 2 2000011 -11 # BR(~chi_20 -> ~e_R- e+)\n 2.95071995E-02 2 -2000011 11 # BR(~chi_20 -> ~e_R+ e-)\n 0.00000000E+00 2 1000013 -13 # BR(~chi_20 -> ~mu_L- mu+)\n 0.00000000E+00 2 -1000013 13 # BR(~chi_20 -> ~mu_L+ mu-)\n 2.95071995E-02 2 2000013 -13 # BR(~chi_20 -> ~mu_R- mu+)\n 2.95071995E-02 2 -2000013 13 # BR(~chi_20 -> ~mu_R+ mu-)\n 4.40985601E-01 2 1000015 -15 # BR(~chi_20 -> ~tau_1- tau+)\n 4.40985601E-01 2 -1000015 15 # BR(~chi_20 -> ~tau_1+ tau-)\n 0.00000000E+00 2 2000015 -15 # BR(~chi_20 -> ~tau_2- tau+)\n 0.00000000E+00 2 -2000015 15 # BR(~chi_20 -> ~tau_2+ tau-)\n 0.00000000E+00 2 1000012 -12 # BR(~chi_20 -> ~nu_eL nu_eb)\n 0.00000000E+00 2 -1000012 12 # BR(~chi_20 -> ~nu_eL* nu_e )\n 0.00000000E+00 2 1000014 -14 # BR(~chi_20 -> ~nu_muL nu_mub)\n 0.00000000E+00 2 -1000014 14 # BR(~chi_20 -> ~nu_muL* nu_mu )\n 0.00000000E+00 2 1000016 -16 # BR(~chi_20 -> ~nu_tau1 nu_taub)\n 0.00000000E+00 2 -1000016 16 # BR(~chi_20 -> ~nu_tau1* nu_tau )\n#\n# PDG Width\nDECAY 1000025 1.91598495E+00 # neutralino3 decays\n# BR NDA ID1 ID2\n 1.13226601E-01 2 1000022 23 # BR(~chi_30 -> ~chi_10 Z )\n 2.11969194E-01 2 1000023 23 # BR(~chi_30 -> ~chi_20 Z )\n 2.95329778E-01 2 1000024 -24 # BR(~chi_30 -> ~chi_1+ W-)\n 2.95329778E-01 2 -1000024 24 # BR(~chi_30 -> ~chi_1- W+)\n 0.00000000E+00 2 1000037 -24 # BR(~chi_30 -> ~chi_2+ W-)\n 0.00000000E+00 2 -1000037 24 # BR(~chi_30 -> ~chi_2- W+)\n 2.13076490E-02 2 1000022 25 # BR(~chi_30 -> ~chi_10 h )\n 0.00000000E+00 2 1000022 35 # BR(~chi_30 -> ~chi_10 H )\n 0.00000000E+00 2 1000022 36 # BR(~chi_30 -> ~chi_10 A )\n 1.24538329E-02 2 1000023 25 # BR(~chi_30 -> ~chi_20 h )\n 0.00000000E+00 2 1000023 35 # BR(~chi_30 -> ~chi_20 H )\n 0.00000000E+00 2 1000023 36 # BR(~chi_30 -> ~chi_20 A )\n 0.00000000E+00 2 1000024 -37 # BR(~chi_30 -> ~chi_1+ H-)\n 0.00000000E+00 2 -1000024 37 # BR(~chi_30 -> ~chi_1- H+)\n 0.00000000E+00 2 1000037 -37 # BR(~chi_30 -> ~chi_2+ H-)\n 0.00000000E+00 2 -1000037 37 # BR(~chi_30 -> ~chi_2- H+)\n 0.00000000E+00 2 1000002 -2 # BR(~chi_30 -> ~u_L ub)\n 0.00000000E+00 2 -1000002 2 # BR(~chi_30 -> ~u_L* u )\n 0.00000000E+00 2 2000002 -2 # BR(~chi_30 -> ~u_R ub)\n 0.00000000E+00 2 -2000002 2 # BR(~chi_30 -> ~u_R* u )\n 0.00000000E+00 2 1000001 -1 # BR(~chi_30 -> ~d_L db)\n 0.00000000E+00 2 -1000001 1 # BR(~chi_30 -> ~d_L* d )\n 0.00000000E+00 2 2000001 -1 # BR(~chi_30 -> ~d_R db)\n 0.00000000E+00 2 -2000001 1 # BR(~chi_30 -> ~d_R* d )\n 0.00000000E+00 2 1000004 -4 # BR(~chi_30 -> ~c_L cb)\n 0.00000000E+00 2 -1000004 4 # BR(~chi_30 -> ~c_L* c )\n 0.00000000E+00 2 2000004 -4 # BR(~chi_30 -> ~c_R cb) 0.00000000E+00 2 -2000004 4 # BR(~chi_30 -> ~c_R* c )\n 0.00000000E+00 2 1000003 -3 # BR(~chi_30 -> ~s_L sb)\n 0.00000000E+00 2 -1000003 3 # BR(~chi_30 -> ~s_L* s )\n 0.00000000E+00 2 2000003 -3 # BR(~chi_30 -> ~s_R sb)\n 0.00000000E+00 2 -2000003 3 # BR(~chi_30 -> ~s_R* s )\n 0.00000000E+00 2 1000006 -6 # BR(~chi_30 -> ~t_1 tb)\n 0.00000000E+00 2 -1000006 6 # BR(~chi_30 -> ~t_1* t )\n 0.00000000E+00 2 2000006 -6 # BR(~chi_30 -> ~t_2 tb)\n 0.00000000E+00 2 -2000006 6 # BR(~chi_30 -> ~t_2* t )\n 0.00000000E+00 2 1000005 -5 # BR(~chi_30 -> ~b_1 bb)\n 0.00000000E+00 2 -1000005 5 # BR(~chi_30 -> ~b_1* b )\n 0.00000000E+00 2 2000005 -5 # BR(~chi_30 -> ~b_2 bb)\n 0.00000000E+00 2 -2000005 5 # BR(~chi_30 -> ~b_2* b )\n 5.57220455E-04 2 1000011 -11 # BR(~chi_30 -> ~e_L- e+)\n 5.57220455E-04 2 -1000011 11 # BR(~chi_30 -> ~e_L+ e-)\n 1.25266782E-03 2 2000011 -11 # BR(~chi_30 -> ~e_R- e+)\n 1.25266782E-03 2 -2000011 11 # BR(~chi_30 -> ~e_R+ e-)\n 5.57220455E-04 2 1000013 -13 # BR(~chi_30 -> ~mu_L- mu+)\n 5.57220455E-04 2 -1000013 13 # BR(~chi_30 -> ~mu_L+ mu-)\n 1.25266782E-03 2 2000013 -13 # BR(~chi_30 -> ~mu_R- mu+)\n 1.25266782E-03 2 -2000013 13 # BR(~chi_30 -> ~mu_R+ mu-)\n 5.26279239E-03 2 1000015 -15 # BR(~chi_30 -> ~tau_1- tau+)\n 5.26279239E-03 2 -1000015 15 # BR(~chi_30 -> ~tau_1+ tau-)\n 6.72814564E-03 2 2000015 -15 # BR(~chi_30 -> ~tau_2- tau+)\n 6.72814564E-03 2 -2000015 15 # BR(~chi_30 -> ~tau_2+ tau-)\n 3.18920485E-03 2 1000012 -12 # BR(~chi_30 -> ~nu_eL nu_eb)\n 3.18920485E-03 2 -1000012 12 # BR(~chi_30 -> ~nu_eL* nu_e )\n 3.18920485E-03 2 1000014 -14 # BR(~chi_30 -> ~nu_muL nu_mub)\n 3.18920485E-03 2 -1000014 14 # BR(~chi_30 -> ~nu_muL* nu_mu )\n 3.20245934E-03 2 1000016 -16 # BR(~chi_30 -> ~nu_tau1 nu_taub)\n 3.20245934E-03 2 -1000016 16 # BR(~chi_30 -> ~nu_tau1* nu_tau )\n#\n# PDG Width\nDECAY 1000035 2.58585079E+00 # neutralino4 decays\n# BR NDA ID1 ID2\n 2.15369294E-02 2 1000022 23 # BR(~chi_40 -> ~chi_10 Z )\n 1.85499971E-02 2 1000023 23 # BR(~chi_40 -> ~chi_20 Z )\n 0.00000000E+00 2 1000025 23 # BR(~chi_40 -> ~chi_30 Z )\n 2.49541430E-01 2 1000024 -24 # BR(~chi_40 -> ~chi_1+ W-)\n 2.49541430E-01 2 -1000024 24 # BR(~chi_40 -> ~chi_1- W+)\n 0.00000000E+00 2 1000037 -24 # BR(~chi_40 -> ~chi_2+ W-)\n 0.00000000E+00 2 -1000037 24 # BR(~chi_40 -> ~chi_2- W+)\n 6.93213268E-02 2 1000022 25 # BR(~chi_40 -> ~chi_10 h )\n 0.00000000E+00 2 1000022 35 # BR(~chi_40 -> ~chi_10 H )\n 0.00000000E+00 2 1000022 36 # BR(~chi_40 -> ~chi_10 A )\n 1.47602336E-01 2 1000023 25 # BR(~chi_40 -> ~chi_20 h )\n 0.00000000E+00 2 1000023 35 # BR(~chi_40 -> ~chi_20 H )\n 0.00000000E+00 2 1000023 36 # BR(~chi_40 -> ~chi_20 A )\n 0.00000000E+00 2 1000025 25 # BR(~chi_40 -> ~chi_30 h )\n 0.00000000E+00 2 1000025 35 # BR(~chi_40 -> ~chi_30 H )\n 0.00000000E+00 2 1000025 36 # BR(~chi_40 -> ~chi_30 A )\n 0.00000000E+00 2 1000024 -37 # BR(~chi_40 -> ~chi_1+ H-)\n 0.00000000E+00 2 -1000024 37 # BR(~chi_40 -> ~chi_1- H+)\n 0.00000000E+00 2 1000037 -37 # BR(~chi_40 -> ~chi_2+ H-)\n 0.00000000E+00 2 -1000037 37 # BR(~chi_40 -> ~chi_2- H+)\n 0.00000000E+00 2 1000002 -2 # BR(~chi_40 -> ~u_L ub)\n 0.00000000E+00 2 -1000002 2 # BR(~chi_40 -> ~u_L* u )\n 0.00000000E+00 2 2000002 -2 # BR(~chi_40 -> ~u_R ub)\n 0.00000000E+00 2 -2000002 2 # BR(~chi_40 -> ~u_R* u )\n 0.00000000E+00 2 1000001 -1 # BR(~chi_40 -> ~d_L db)\n 0.00000000E+00 2 -1000001 1 # BR(~chi_40 -> ~d_L* d )\n 0.00000000E+00 2 2000001 -1 # BR(~chi_40 -> ~d_R db)\n 0.00000000E+00 2 -2000001 1 # BR(~chi_40 -> ~d_R* d )\n 0.00000000E+00 2 1000004 -4 # BR(~chi_40 -> ~c_L cb)\n 0.00000000E+00 2 -1000004 4 # BR(~chi_40 -> ~c_L* c )\n 0.00000000E+00 2 2000004 -4 # BR(~chi_40 -> ~c_R cb)\n 0.00000000E+00 2 -2000004 4 # BR(~chi_40 -> ~c_R* c )\n 0.00000000E+00 2 1000003 -3 # BR(~chi_40 -> ~s_L sb)\n 0.00000000E+00 2 -1000003 3 # BR(~chi_40 -> ~s_L* s )\n 0.00000000E+00 2 2000003 -3 # BR(~chi_40 -> ~s_R sb)\n 0.00000000E+00 2 -2000003 3 # BR(~chi_40 -> ~s_R* s )\n 0.00000000E+00 2 1000006 -6 # BR(~chi_40 -> ~t_1 tb)\n 0.00000000E+00 2 -1000006 6 # BR(~chi_40 -> ~t_1* t )\n 0.00000000E+00 2 2000006 -6 # BR(~chi_40 -> ~t_2 tb)\n 0.00000000E+00 2 -2000006 6 # BR(~chi_40 -> ~t_2* t )\n 0.00000000E+00 2 1000005 -5 # BR(~chi_40 -> ~b_1 bb)\n 0.00000000E+00 2 -1000005 5 # BR(~chi_40 -> ~b_1* b )\n 0.00000000E+00 2 2000005 -5 # BR(~chi_40 -> ~b_2 bb)\n 0.00000000E+00 2 -2000005 5 # BR(~chi_40 -> ~b_2* b )\n 9.64835418E-03 2 1000011 -11 # BR(~chi_40 -> ~e_L- e+)\n 9.64835418E-03 2 -1000011 11 # BR(~chi_40 -> ~e_L+ e-)\n 3.75684470E-03 2 2000011 -11 # BR(~chi_40 -> ~e_R- e+)\n 3.75684470E-03 2 -2000011 11 # BR(~chi_40 -> ~e_R+ e-)\n 9.64835418E-03 2 1000013 -13 # BR(~chi_40 -> ~mu_L- mu+)\n 9.64835418E-03 2 -1000013 13 # BR(~chi_40 -> ~mu_L+ mu-)\n 3.75684470E-03 2 2000013 -13 # BR(~chi_40 -> ~mu_R- mu+)\n 3.75684470E-03 2 -2000013 13 # BR(~chi_40 -> ~mu_R+ mu-)\n 2.68215241E-03 2 1000015 -15 # BR(~chi_40 -> ~tau_1- tau+)\n 2.68215241E-03 2 -1000015 15 # BR(~chi_40 -> ~tau_1+ tau-)\n 1.62289809E-02 2 2000015 -15 # BR(~chi_40 -> ~tau_2- tau+)\n 1.62289809E-02 2 -2000015 15 # BR(~chi_40 -> ~tau_2+ tau-)\n 2.53796547E-02 2 1000012 -12 # BR(~chi_40 -> ~nu_eL nu_eb)\n 2.53796547E-02 2 -1000012 12 # BR(~chi_40 -> ~nu_eL* nu_e )\n 2.53796547E-02 2 1000014 -14 # BR(~chi_40 -> ~nu_muL nu_mub)\n 2.53796547E-02 2 -1000014 14 # BR(~chi_40 -> ~nu_muL* nu_mu )\n 2.54724352E-02 2 1000016 -16 # BR(~chi_40 -> ~nu_tau1 nu_taub)\n 2.54724352E-02 2 -1000016 16 # BR(~chi_40 -> ~nu_tau1* nu_tau )\n'), comEnergy = cms.double(13000.0), crossSection = cms.untracked.double(0.000359318), maxEventsToPrint = cms.untracked.int32(0), pythiaHepMCVerbosity = cms.untracked.bool(False), pythiaPylistVerbosity = cms.untracked.int32(0) ) process.ProductionFilterSequence = cms.Sequence(process.generator) # Path and EndPath definitions process.generation_step = cms.Path(process.pgen) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.endjob_step = cms.EndPath(process.endOfProcess) process.RAWSIMoutput_step = cms.EndPath(process.RAWSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.generation_step,process.genfiltersummary_step,process.endjob_step,process.RAWSIMoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # filter all path with the production filter sequence for path in process.paths: getattr(process,path).insert(0, process.ProductionFilterSequence) # customisation of the process. # Automatic addition of the customisation function from Configuration.DataProcessing.Utils from Configuration.DataProcessing.Utils import addMonitoring #call to customisation function addMonitoring imported from Configuration.DataProcessing.Utils process = addMonitoring(process) # End of customisation functions # Customisation from command line # Add early deletion of temporary data products to reduce peak memory need from Configuration.StandardSequences.earlyDeleteSettings_cff import customiseEarlyDelete process = customiseEarlyDelete(process) # End adding early deletion