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Variables | |
| tuple | LHCTransport |
00001 cms.EDProducer("HectorProducer", 00002 HepMCProductLabel = cms.string('generator'), ## HepMC source to be processed 00003 ZDCTransport = cms.bool(True), ## main flag to set transport for ZDC 00004 FP420Transport = cms.bool(True), ## main flag to set transport for FP420 00005 Verbosity = cms.bool(False), 00006 Hector = cms.PSet( 00007 HectorEtaCut, 00008 Beam1 = cms.string('SimTransport/HectorProducer/data/LHCB1IR5_5TeV.tfs'), 00009 Beam2 = cms.string('SimTransport/HectorProducer/data/LHCB2IR5_5TeV.tfs'), 00010 BeamLineLengthD1 = cms.double(139.0), ## distance of transport for ZDC case, length of beam line 00011 BeamLineLengthZDC = cms.double(140.0), ## length of beam line for ZDC: important for aperture checks 00012 BeamLineLengthFP420 = cms.double(430.0), ## length of beam line for FP420: important for aperture checks 00013 RP420f = cms.double(419.0), ## distance of transport in clockwise dir. for FP420 00014 RP420b = cms.double(419.0), ## distance of transport in anti-clockwise dir. for FP420 00015 smearEnergy = cms.bool(True), ## if False: no Energy smearing(i.e. sigmaEnergy =0.0) 00016 sigmaEnergy = cms.double(0.0), ## beam energy dispersion (GeV); if =0.0 the default(=0.79) is used 00017 smearAng = cms.bool(True), ## if False: no Angle smearing(i.e. sigmaSTX(Y) =0.0) 00018 sigmaSTX = cms.double(0.0), ## x angle dispersion at IP (urad); if =0.0 the default(=30.23) is used 00019 sigmaSTY = cms.double(0.0) ## y angle dispersion at IP (urad); if =0.0 the default(=30.23) is used 00020 ) 00021 )
Definition at line 4 of file HectorTransport_cfi.py.
1.7.3