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Variables
HectorTransport_cfi Namespace Reference

Variables

tuple LHCTransport
 

Variable Documentation

tuple HectorTransport_cfi.LHCTransport
Initial value:
1 = cms.EDProducer("HectorProducer",
2  HepMCProductLabel = cms.string('generatorSmeared'), ## HepMC source to be processed
3  ZDCTransport = cms.bool(True), ## main flag to set transport for ZDC
4  FP420Transport = cms.bool(True), ## main flag to set transport for FP420
5  Verbosity = cms.bool(False),
6  Hector = cms.PSet(
7  HectorEtaCut,
8  Beam1 = cms.string('SimTransport/HectorProducer/data/LHCB1IR5_5TeV.tfs'),
9  Beam2 = cms.string('SimTransport/HectorProducer/data/LHCB2IR5_5TeV.tfs'),
10  BeamLineLengthD1 = cms.double(139.0), ## distance of transport for ZDC case, length of beam line
11  BeamLineLengthZDC = cms.double(140.0), ## length of beam line for ZDC: important for aperture checks
12  BeamLineLengthFP420 = cms.double(430.0), ## length of beam line for FP420: important for aperture checks
13  RP420f = cms.double(419.0), ## distance of transport in clockwise dir. for FP420
14  RP420b = cms.double(419.0), ## distance of transport in anti-clockwise dir. for FP420
15  smearEnergy = cms.bool(True), ## if False: no Energy smearing(i.e. sigmaEnergy =0.0)
16  sigmaEnergy = cms.double(0.0), ## beam energy dispersion (GeV); if =0.0 the default(=0.79) is used
17  smearAng = cms.bool(True), ## if False: no Angle smearing(i.e. sigmaSTX(Y) =0.0)
18  sigmaSTX = cms.double(0.0), ## x angle dispersion at IP (urad); if =0.0 the default(=30.23) is used
19  sigmaSTY = cms.double(0.0) ## y angle dispersion at IP (urad); if =0.0 the default(=30.23) is used
20  )
21 )

Definition at line 4 of file HectorTransport_cfi.py.