hydjet2DefaultParameters_cff.py

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import FWCore.ParameterSet.Config as cms
 
from Configuration.Generator.PythiaUESettings_cfi import *
 
collisionParameters2760GeV = cms.PSet(
    fAw         = cms.double(208.0),    # beam/target atomic number
    fSqrtS      = cms.double(2760.0),   #
    fUmax       = cms.double(1.265),    # Maximal transverse flow rapidity at thermal freeze-out for central collisions, fUmax
    fPtmin      = cms.double(8.2),  # Minimal pt of parton-parton scattering in PYTHIA event, fPtmin [GeV/c] 
    fT0         = cms.double(1.),   # Initial QGP temperature for central Pb+Pb collisions in mid-rapidity, fT0 [GeV]; allowed range [0.2,2.0]GeV;
 
    
    fTau        = cms.double(12.2),     # Proper time proper at thermal freeze-out for central collisions, fTau [fm/c]
    fR      = cms.double(13.45),    # Maximal transverse radius at thermal freeze-out for central collisions, fR [fm]
)
 
collisionParameters5020GeV = cms.PSet(
    fAw         = cms.double(208.0), 
    fSqrtS      = cms.double(5020.0),
    fUmax       = cms.double(1.35),     # Maximal transverse flow rapidity at thermal freeze-out for central collisions, fUmax
    fPtmin      = cms.double(10.),  # Minimal pt of parton-parton scattering in PYTHIA event, fPtmin [GeV/c] 
    fT0         = cms.double(1.1),      # Initial QGP temperature for central Pb+Pb collisions in mid-rapidity, fT0 [GeV]; allowed range [0.2,2.0]GeV;
 
    
    fTau        = cms.double(13.2),     # Proper time proper at thermal freeze-out for central collisions, fTau [fm/c]
    fR      = cms.double(13.9),     # Maximal transverse radius at thermal freeze-out for central collisions, fR [fm]
)
 
qgpParameters = cms.PSet(
    fTau0       = cms.double(0.1),  # Proper QGP formation time in fm/c, fTau0 (0.01<fTau0<10)
    fNf         = cms.int32(0),     # Number of active quark flavours in QGP, fNf (0, 1, 2 or 3)
)
 
hydjet2Parameters = cms.PSet(
    
    fTMuType        = cms.double(0.),   # Flag to use calculated T_ch, mu_B and mu_S as a function of fSqrtS, fTMuType (=0 user's ones, >0 calculated) 
    fT      = cms.double(0.165),    # Temperature at chemical freeze-out, fT [GeV]
    fMuB        = cms.double(0.),   # Chemical baryon potential per unit charge, fMuB [GeV]
    fMuS        = cms.double(0.),   # Chemical strangeness potential per unit charge, fMuS [GeV]  
    fMuC        = cms.double(0.),   # Chemical charm potential per unit charge, fMuC [GeV] (used if charm production is turned on)  
    fMuI3       = cms.double(0.),   # Chemical isospin potential per unit charge, fMuI3 [GeV]   
 
    
    fThFO       = cms.double(0.105),    # Temperature at thermal freeze-out, fTthFO [GeV]
    fMu_th_pip      = cms.double(0.),   # Chemical potential of pi+ at thermal freeze-out, fMu_th_pip [GeV] 
 
    
    fSigmaTau       = cms.double(3.5),  # Duration of emission at thermal freeze-out for central collisions, fSigmaTau [fm/c]
 
    
    fCorrS      = cms.double(1.),   # Strangeness supression factor gamma_s with fCorrS value (0<fCorrS <=1, if fCorrS <= 0 then it is calculated)
 
    
    fYlmax      = cms.double(4.5),  # Maximal longitudinal flow rapidity at thermal freeze-out, fYlmax
    
    
    fIfDeltaEpsilon     = cms.double(1.),   # Flag to specify fDelta and fEpsilon values, fIfDeltaEpsilon (=0 user's ones, >=1 calculated) 
    fDelta      = cms.double(0.1),  # Momentum azimuthal anizotropy parameter at thermal freeze-out, fDelta
    fEpsilon        = cms.double(0.05),     # Spatial azimuthal anisotropy parameter at thermal freeze-out, fEpsilon
 
    
    fDecay      = cms.int32(1),     # Flag to switch on/off hadron decays, fDecay (=0 decays off, >=1 decays on)
    fWeakDecay      = cms.double(0.000000000000001),    # Low decay width threshold fWeakDecay[GeV]: width<fWeakDecay decay off, width>=fDecayWidth decay on; can be used to switch off weak decays
    
    
    fCharmProd      = cms.int32(1),     # Flag to include thermal charm production, fIcharm (=0 no charm production, >=1 charm production) 
    fCorrC      = cms.double(-1.),  # Charmness enhancement factor gamma_c with fCorrC value (fCorrC >0, if fCorrC<0 then it is calculated)
    fEtaType        = cms.double(1.),   # Flag to choose longitudinal flow rapidity distribution, fEtaType (=0 uniform, >0 Gaussian with the dispersion Ylmax)
    fIshad      = cms.int32(1),     # Flag to switch on/off nuclear shadowing, fIshad (0 shadowing off, 1 shadowing on) 
    fPyhist         = cms.int32(0),     # Flag to suppress the output of particle history from PYTHIA, fPyhist (=1 only final state particles; =0 full particle history from PYTHIA)
    fIenglu         = cms.int32(0),     # Flag to fix type of partonic energy loss, fIenglu (0 radiative and collisional loss, 1 radiative loss only, 2 collisional loss only)
    fIanglu         = cms.int32(1),     # Flag to fix type of angular distribution of in-medium emitted gluons, fIanglu (0 small-angular, 1 wide-angular, 2 collinear).
    embeddingMode   = cms.bool(False),
    rotateEventPlane    = cms.bool(True)
)
 
PythiaDefaultBlock = cms.PSet(
    pythiaUESettingsBlock,
    TDB = cms.vstring(
        'PARJ(14)=0.' # ! replacing the same parametr from pythiaQuarkoniaSettings block to avoid producing h'_1 (pdg - 10333)
    ),
    hydjet2PythiaDefault = cms.vstring(
        'MSEL=1',   # ! type of hard QCD production process
        'MSTU(21) = 1', # ! controle parameter to avoid stopping run
        'PARU(14)=1.',  # ! tolerance parameter to adjust fragmentation'
        'MSTJ(21) = 1', # ! hadron decays on (if off - decays by FASTMC decayer) 
        'MSTP(2) = 1',  # ! which order running alphaS 
        'MSTJ(22)=2',   # ! particle decays if lifetime < parj(71)
        'PARJ(71)=10.', # ! ctau=10 mm 
        'MSTP(52) = 1', # ! NO LAPDF        
        'mstp(122)=0'   # ! no printout of Pythia initialization information hereinafter 
    ),
    ProQ2Otune = cms.vstring(  
        'mstp(51)=7',   # ! PDF set: structure function chosen - CTEQ5M pdf                                      
            'mstp(3)=2',    # ! QCD switch for choice of LambdaQCD           
            'parp(62)=2.9', # ! ISR IR cutoff                                
            'parp(64)=0.14',# ! ISR renormalization scale prefactor          
            'parp(67)=2.65',# ! ISR Q2max factor                             
            'mstp(68)=3',   # ! ISR phase space choice & ME corrections      
            'parp(71)=4.',  # ! FSR Q2max factor for non-s-channel procs     
            'parj(81)=0.29',# ! FSR Lambda_QCD scale                         
            'parj(82)=1.65',# ! FSR IR cutoff                                
            'mstp(33)=0',   # ! "K" switch for K-factor on/off & type        
            'mstp(81)=1',   # ! UE model                                     
            'parp(82)=1.9', # ! UE IR cutoff at reference ecm                
            'parp(89)=1800.',# ! UE IR cutoff reference ecm                   
            'parp(90)=0.22',# ! UE IR cutoff ecm scaling power               
            'mstp(82)=4',   # ! UE hadron transverse mass distribution       
            'parp(83)=0.83',# ! UE mass distribution parameter               
            'parp(84)=0.6', # ! UE mass distribution parameter              
            'parp(85)=0.86',# ! UE gg colour correlated fraction             
            'parp(86)=0.93',# ! UE total gg fraction                         
            'mstp(91)=1',   # ! BR primordial kT distribution                
            'parp(91)=2.1', # ! BR primordial kT width <|kT|>                
            'parp(93)=5.',  # ! BR primordial kT UV cutoff               
            'mstj(11)=5',   # ! HAD choice of fragmentation function(s)      
            'parj(1)=0.073',# ! HAD diquark suppression                      
            'parj(2)=0.2',  # ! HAD strangeness suppression                  
            'parj(3)=0.94', # ! HAD strange diquark suppression              
            'parj(4)=0.032',# ! HAD vector diquark suppression               
            'parj(11)=0.31',# ! HAD P(vector meson), u and d only            
            'parj(12)=0.4', # ! HAD P(vector meson), contains s              
            'parj(13)=0.54',# ! HAD P(vector meson), heavy quarks            
            'parj(21)=0.325',# ! HAD fragmentation pT                         
            'parj(25)=0.63',# ! HAD eta0 suppression                        
            'parj(26)=0.12',# ! HAD eta0' suppression                       
            'parj(41)=0.5', # ! HAD string parameter a                       
            'parj(42)=0.6', # ! HAD string parameter b                       
            'parj(46)=1.',  # ! HAD Lund(=0)-Bowler(=1) rQ (rc)              
            'parj(47)=0.67' # ! HAD Lund(=0)-Bowler(=1) rb            
 
    ),
    ppJets = cms.vstring('MSEL=1'),     # ! QCD hight pT processes
    customProcesses = cms.vstring('MSEL=0'),# ! User processes
    pythiaJets = cms.vstring(
        'MSUB(11)=1',   # ! q+q->q+q
        'MSUB(12)=1',   # ! q+qbar->q+qbar
        'MSUB(13)=1',   # ! q+qbar->g+g
        'MSUB(28)=1',   # ! q+g->q+g
        'MSUB(53)=1',   # ! g+g->q+qbar
        'MSUB(68)=1'    # ! g+g->g+g
    ),
    pythiaPromptPhotons = cms.vstring(
        'MSUB(14)=1',   # ! q+qbar->g+gamma
        'MSUB(18)=1',   # ! q+qbar->gamma+gamma
        'MSUB(29)=1',   # ! q+g->q+gamma
        'MSUB(114)=1',  # ! g+g->gamma+gamma
        'MSUB(115)=1'   # ! g+g->g+gamma
    ),
    pythiaWeakBosons = cms.vstring(
        'MSUB(1)=1',
        'MSUB(2)=1'
    ),
    pythiaZjets = cms.vstring(
        'MSUB(15)=1',
        'MSUB(30)=1'
    ),
    pythiaCharmoniumNRQCD = cms.vstring(
        'MSUB(421) = 1',
        'MSUB(422) = 1',
        'MSUB(423) = 1',
        'MSUB(424) = 1',
        'MSUB(425) = 1',
        'MSUB(426) = 1',
        'MSUB(427) = 1',
        'MSUB(428) = 1',
        'MSUB(429) = 1',
        'MSUB(430) = 1',
        'MSUB(431) = 1',
        'MSUB(432) = 1',
        'MSUB(433) = 1',
        'MSUB(434) = 1',
        'MSUB(435) = 1',
        'MSUB(436) = 1',
        'MSUB(437) = 1',
        'MSUB(438) = 1',
        'MSUB(439) = 1'
    ),
    pythiaBottomoniumNRQCD = cms.vstring(
        'MSUB(461) = 1',
        'MSUB(462) = 1',
        'MSUB(463) = 1',
        'MSUB(464) = 1',
        'MSUB(465) = 1',
        'MSUB(466) = 1',
        'MSUB(467) = 1',
        'MSUB(468) = 1',
        'MSUB(469) = 1',
        'MSUB(470) = 1',
        'MSUB(471) = 1',
        'MSUB(472) = 1',
        'MSUB(473) = 1',
        'MSUB(474) = 1',
        'MSUB(475) = 1',
        'MSUB(476) = 1',
        'MSUB(477) = 1',
        'MSUB(478) = 1',
        'MSUB(479) = 1',
    ),
    pythiaQuarkoniaSettings = cms.vstring(
        'PARP(141)=1.16', # Matrix Elements
        'PARP(142)=0.0119',
        'PARP(143)=0.01',
        'PARP(144)=0.01',
        'PARP(145)=0.05',
        'PARP(146)=9.28',
        'PARP(147)=0.15',
        'PARP(148)=0.02',
        'PARP(149)=0.02',
        'PARP(150)=0.085',
        # Meson spin
        'PARJ(13)=0.60',
        'PARJ(14)=0.162',
        'PARJ(15)=0.018',
        'PARJ(16)=0.054',
        # Polarization
        'MSTP(145)=0',
        'MSTP(146)=0',
        'MSTP(147)=0',
        'MSTP(148)=1',
        'MSTP(149)=1',
        # Chi_c branching ratios
        'BRAT(861)=0.202',
        'BRAT(862)=0.798',
        'BRAT(1501)=0.013',
        'BRAT(1502)=0.987',
        'BRAT(1555)=0.356',
        'BRAT(1556)=0.644'
    ),
    pythiaZtoMuons = cms.vstring(
        "MDME(174,1)=0", # !Z decay into d dbar,
        "MDME(175,1)=0", # !Z decay into u ubar,
        "MDME(176,1)=0", # !Z decay into s sbar,
        "MDME(177,1)=0", # !Z decay into c cbar,
        "MDME(178,1)=0", # !Z decay into b bbar,
        "MDME(179,1)=0", # !Z decay into t tbar,
        "MDME(182,1)=0", # !Z decay into e- e+,
        "MDME(183,1)=0", # !Z decay into nu_e nu_ebar,
        "MDME(184,1)=1", # !Z decay into mu- mu+,
        "MDME(185,1)=0", # !Z decay into nu_mu nu_mubar,
        "MDME(186,1)=0", # !Z decay into tau- tau+,
        "MDME(187,1)=0"  # !Z decay into nu_tau nu_taubar
    ),
    pythiaZtoElectrons = cms.vstring(
        "MDME(174,1)=0", # !Z decay into d dbar,
        "MDME(175,1)=0", # !Z decay into u ubar,
        "MDME(176,1)=0", # !Z decay into s sbar,
        "MDME(177,1)=0", # !Z decay into c cbar,
        "MDME(178,1)=0", # !Z decay into b bbar,
        "MDME(179,1)=0", # !Z decay into t tbar,
        "MDME(182,1)=1", # !Z decay into e- e+,
        "MDME(183,1)=0", # !Z decay into nu_e nu_ebar,
        "MDME(184,1)=0", # !Z decay into mu- mu+,
        "MDME(185,1)=0", # !Z decay into nu_mu nu_mubar,
        "MDME(186,1)=0", # !Z decay into tau- tau+,
        "MDME(187,1)=0"  # !Z decay into nu_tau nu_taubar
    ),
    pythiaZtoMuonsAndElectrons = cms.vstring(
        "MDME(174,1)=0", # !Z decay into d dbar,
        "MDME(175,1)=0", # !Z decay into u ubar,
        "MDME(176,1)=0", # !Z decay into s sbar,
        "MDME(177,1)=0", # !Z decay into c cbar,
        "MDME(178,1)=0", # !Z decay into b bbar,
        "MDME(179,1)=0", # !Z decay into t tbar,
        "MDME(182,1)=1", # !Z decay into e- e+,
        "MDME(183,1)=0", # !Z decay into nu_e nu_ebar,
        "MDME(184,1)=1", # !Z decay into mu- mu+,
        "MDME(185,1)=0", # !Z decay into nu_mu nu_mubar,
        "MDME(186,1)=0", # !Z decay into tau- tau+,
        "MDME(187,1)=0"  # !Z decay into nu_tau nu_taubar
    ),
    pythiaUpsilonToMuons = cms.vstring(
        'BRAT(1034) = 0 ', # switch off',
        'BRAT(1035) = 1 ', # switch on',
        'BRAT(1036) = 0 ', # switch off',
        'BRAT(1037) = 0 ', # switch off',
        'BRAT(1038) = 0 ', # switch off',
        'BRAT(1039) = 0 ', # switch off',
        'BRAT(1040) = 0 ', # switch off',
        'BRAT(1041) = 0 ', # switch off',
        'BRAT(1042) = 0 ', # switch off',
        'MDME(1034,1) = 0 ', # switch off',
        'MDME(1035,1) = 1 ', # switch on',
        'MDME(1036,1) = 0 ', # switch off',
        'MDME(1037,1) = 0 ', # switch off',
        'MDME(1038,1) = 0 ', # switch off',
        'MDME(1039,1) = 0 ', # switch off',
        'MDME(1040,1) = 0 ', # switch off',
        'MDME(1041,1) = 0 ', # switch off',
        'MDME(1042,1) = 0 ', # switch off'
    ),
    pythiaJpsiToMuons = cms.vstring(
        'BRAT(858) = 0 ', # switch off',
        'BRAT(859) = 1 ', # switch on',
        'BRAT(860) = 0 ', # switch off',
        'MDME(858,1) = 0 ', # switch off',
        'MDME(859,1) = 1 ', # switch on',
        'MDME(860,1) = 0 ', # switch off'
    ),
    pythiaBToJpsi = cms.vstring(
        'BRAT(889) = 0 ', # switch off B0->J/Psi K0',
        'BRAT(890) = 0 ', # switch off B0->J/Psi K*0',
        'BRAT(934) = 0 ', # switch off B+->J/Psi K+',
        'BRAT(935) = 0 ', # switch off B+->J/Psi K*+',
        'BRAT(980) = 0 ', # switch off B_s0->J/Psi eta',
        'BRAT(981) = 0 ', # switch off B_s0->J/Psi eta"',
        'BRAT(982) = 0 ', # switch off B_s0->J/Psi phi',
        'BRAT(1001) = 0 ', # switch off B_c+>J/Psi nu_e e+',
        'BRAT(1003) = 0 ', # switch off B_c+>J/Psi nu_mu mu+',
        'BRAT(1005) = 0 ', # switch off B_c+>J/Psi nu_tau tau+',
 
        'MDME(889,1) = 0 ', # switch off',
        'MDME(890,1) = 0 ', # switch off',
        'MDME(934,1) = 0 ', # switch off'
        'MDME(935,1) = 0 ', # switch off'
        'MDME(980,1) = 0 ', # switch off'
        'MDME(981,1) = 0 ', # switch off'
        'MDME(982,1) = 0 ', # switch off'
        'MDME(1001,1) = 0 ', # switch off'
        'MDME(1003,1) = 0 ', # switch off'
        'MDME(1005,1) = 0 ', # switch off'
    ),
    pythiaXToJpsi = cms.vstring(
        'BRAT(1228) = 0 ', # switch off Lambda_b0->J/Psi Lambda0',
        'BRAT(1501) = 0 ', # switch off chi_0c->J/Psi gamma',
        'BRAT(1555) = 0 ', # switch off chi_1c->J/Psi gamma',
        'BRAT(1570) = 0 ', # switch off psi"->J/Psi pi+ pi-',
        'BRAT(1571) = 0 ', # switch off psi"->J/Psi pi0 pi0',
        'BRAT(1572) = 0 ', # switch off psi"->J/Psi eta',
        'BRAT(1573) = 0 ', # switch off psi"->J/Psi pi0',
 
        'MDME(1228,1) = 0 ', # switch off'
        'MDME(1501,1) = 0 ', # switch off'
        'MDME(1555,1) = 0 ', # switch off'
        'MDME(1570,1) = 0 ', # switch off'
        'MDME(1571,1) = 0 ', # switch off'
        'MDME(1572,1) = 0 ', # switch off'
        'MDME(1573,1) = 0 ', # switch off'
    ),
    pythiaPromptJpsi = cms.vstring(
        'BRAT(4285) = 1 ', # switch off cc~[3S18]->J/Psi g',
        'BRAT(4286) = 1 ', # switch off cc~[1S08]->J/Psi g',
        'BRAT(4287) = 1 ', # switch off cc~[3P08]->J/Psi g',
 
        'MDME(4285,1) = 1 ', # switch off'
        'MDME(4286,1) = 1 ', # switch off'
        'MDME(4287,1) = 1 ', # switch off'
    ),
    pythiaMuonCandidates = cms.vstring(
        'CKIN(3)=20',
        'MSTJ(22)=2',
        'PARJ(71)=40.'
    ),
    myParameters = cms.vstring('MDCY(310,1)=0')
)