//*******************************************************************// // Configuration file for charm / beauty generation with PYTHIA // // // // The parameters have been tuned in order to reproduce the inclusive// // heavy quark pt distribution given by the NLO pQCD calculation by // // Mangano, Nason and Ridolfi. // // // // For details and for the NORMALIZATION of the yields see: // // N.Carrer and A.Dainese, // // "Charm and beauty production at the LHC", // // ALICE-INT-2003-019, [arXiv:hep-ph/0311225]; // // PPR Chapter 6.6, CERN/LHCC 2005-030 (2005). // //*******************************************************************// #if !defined(__CINT__) || defined(__MAKECINT__) #include #include #include #include #include #include #include "STEER/AliRunLoader.h" #include "STEER/AliRun.h" #include "STEER/AliConfig.h" #include "PYTHIA6/AliDecayerPythia.h" #include "PYTHIA6/AliGenPythia.h" #include "STEER/AliMagF.h" #include "STRUCT/AliBODY.h" #include "STRUCT/AliMAG.h" #include "STRUCT/AliABSOv3.h" #include "STRUCT/AliDIPOv3.h" #include "STRUCT/AliHALLv3.h" #include "STRUCT/AliFRAMEv2.h" #include "STRUCT/AliSHILv3.h" #include "STRUCT/AliPIPEv3.h" #include "ITS/AliITSv11.h" #include "TPC/AliTPCv2.h" #include "TOF/AliTOFv6T0.h" #include "HMPID/AliHMPIDv3.h" #include "ZDC/AliZDCv3.h" #include "TRD/AliTRDv1.h" #include "FMD/AliFMDv0.h" #include "MUON/AliMUONv1.h" #include "PHOS/AliPHOSv1.h" #include "PMD/AliPMDv1.h" #include "T0/AliT0v1.h" #include "ACORDE/AliACORDEv1.h" #endif //--- Heavy Flavour Production --- enum ProcessHvFl_t { kCharmPbPb5500, kCharmpPb8800, kCharmpp14000, kCharmpp14000wmi, kCharmSemiElpp14000wmi, kD0PbPb5500, kD0pPb8800, kD0pp14000, kDPlusPbPb5500, kDPluspPb8800, kDPluspp14000, kDPlusStrangePbPb5500, kDPlusStrangepPb8800, kDPlusStrangepp14000, kBeautyPbPb5500, kBeautypPb8800, kBeautypp14000, kBeautypp14000wmi, kBeautySemiElpp14000wmi }; //--- Decay Mode --- enum DecayHvFl_t { kNature, kHadr, kSemiEl, kSemiMu }; //--- Rapidity Cut --- enum YCut_t { kFull, kBarrel, kMuonArm }; //--- Trigger config --- enum TrigConf_t { kDefaultPPTrig, kDefaultPbPbTrig }; const char * TrigConfName[] = { "p-p","Pb-Pb" }; //--- Functions --- class AliGenPythia; AliGenPythia *PythiaHVQ(ProcessHvFl_t proc); void LoadPythia(); // This part for configuration static ProcessHvFl_t procHvFl = kCharmpp14000wmi; static DecayHvFl_t decHvFl = kNature; static YCut_t ycut = kFull; static AliMagF::BMap_t mag = AliMagF::k5kG; static TrigConf_t trig = kDefaultPbPbTrig; // default PbPb trigger configuration // nEvts = -1 : you get 1 QQbar pair and all the fragmentation and // decay chain // nEvts = N>0 : you get N charm / beauty Hadrons Int_t nEvts = -1; // stars = kTRUE : all heavy resonances and their decay stored // = kFALSE: only final heavy hadrons and their decays stored Bool_t stars = kTRUE; // To be used only with kCharmppMNRwmi and kBeautyppMNRwmi // To get a "reasonable" agreement with MNR results, events have to be // generated with the minimum ptHard set to 2.76 GeV. // To get a "perfect" agreement with MNR results, events have to be // generated in four ptHard bins with the following relative // normalizations: // CHARM // 2.76-3 GeV: 25% // 3-4 GeV: 40% // 4-8 GeV: 29% // >8 GeV: 6% // BEAUTY // 2.76-4 GeV: 5% // 4-6 GeV: 31% // 6-8 GeV: 28% // >8 GeV: 36% Float_t ptHardMin = 2.76; Float_t ptHardMax = -1.; // Comment line static TString comment; void Config() { //========================// // Set Random Number seed // //========================// TDatime dt; UInt_t curtime=dt.Get(); UInt_t procid=gSystem->GetPid(); UInt_t seed=curtime-procid; // gRandom->SetSeed(seed); // cerr<<"Seed for random number generation= "<SetSeed(12345); // Load Pythia libraries LoadPythia(); // libraries required by geant321 #if defined(__CINT__) gSystem->Load("libgeant321"); #endif new TGeant3TGeo("C++ Interface to Geant3"); if(!AliCDBManager::Instance()->IsDefaultStorageSet()){ AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB"); AliCDBManager::Instance()->SetRun(0); } //======================================================================= // Create the output file AliRunLoader* rl=0x0; cout<<"Config.C: Creating Run Loader ..."<Fatal("Config.C","Can not instatiate the Run Loader"); return; } rl->SetCompressionLevel(2); rl->SetNumberOfEventsPerFile(1000); gAlice->SetRunLoader(rl); // gAlice->SetGeometryFromFile("geometry.root"); // gAlice->SetGeometryFromCDB(); // Set the trigger configuration AliSimulation::Instance()->SetTriggerConfig(TrigConfName[trig]); cout<<"Trigger configuration is set to "<SetProcess("DCAY",1); gMC->SetProcess("PAIR",1); gMC->SetProcess("COMP",1); gMC->SetProcess("PHOT",1); gMC->SetProcess("PFIS",0); gMC->SetProcess("DRAY",0); gMC->SetProcess("ANNI",1); gMC->SetProcess("BREM",1); gMC->SetProcess("MUNU",1); gMC->SetProcess("CKOV",1); gMC->SetProcess("HADR",1); gMC->SetProcess("LOSS",2); gMC->SetProcess("MULS",1); gMC->SetProcess("RAYL",1); Float_t cut = 1.e-3; // 1MeV cut by default Float_t tofmax = 1.e10; gMC->SetCut("CUTGAM", cut); gMC->SetCut("CUTELE", cut); gMC->SetCut("CUTNEU", cut); gMC->SetCut("CUTHAD", cut); gMC->SetCut("CUTMUO", cut); gMC->SetCut("BCUTE", cut); gMC->SetCut("BCUTM", cut); gMC->SetCut("DCUTE", cut); gMC->SetCut("DCUTM", cut); gMC->SetCut("PPCUTM", cut); gMC->SetCut("TOFMAX", tofmax); // Set External decayer // //======================// TVirtualMCDecayer* decayer = new AliDecayerPythia(); // DECAYS // switch(decHvFl) { case kNature: decayer->SetForceDecay(kAll); break; case kHadr: decayer->SetForceDecay(kHadronicD); break; case kSemiEl: decayer->SetForceDecay(kSemiElectronic); break; case kSemiMu: decayer->SetForceDecay(kSemiMuonic); break; } decayer->Init(); gMC->SetExternalDecayer(decayer); //=========================// // Generator Configuration // //=========================// AliGenPythia *pythia = PythiaHVQ(procHvFl); // FeedDown option pythia->SetFeedDownHigherFamily(kFALSE); // Stack filling option if(!stars) pythia->SetStackFillOpt(AliGenPythia::kParentSelection); // Set Count mode if(nEvts>0) pythia->SetCountMode(AliGenPythia::kCountParents); // DECAYS // switch(decHvFl) { case kNature: pythia->SetForceDecay(kAll); break; case kHadr: pythia->SetForceDecay(kHadronicD); break; case kSemiEl: pythia->SetForceDecay(kSemiElectronic); break; case kSemiMu: pythia->SetForceDecay(kSemiMuonic); break; } // GEOM & KINE CUTS // pythia->SetMomentumRange(0,99999999); pythia->SetPhiRange(0., 360.); pythia->SetThetaRange(0,180); switch(ycut) { case kFull: pythia->SetYRange(-999,999); break; case kBarrel: pythia->SetYRange(-2,2); break; case kMuonArm: pythia->SetYRange(1,6); break; } // PRIMARY VERTEX // pythia->SetOrigin(0, 0, 0); // vertex position pythia->SetSigma(0, 0, 5.3); // Sigma in (X,Y,Z) (cm) on IP position pythia->SetCutVertexZ(1.); // Truncate at 1 sigma pythia->SetVertexSmear(kPerEvent); pythia->SetTrackingFlag(0); // Specify GEANT tracking limits (Rmax, Zmax) //gAlice->GetMCApp()->TrackingLimits(90.,1.0e10); pythia->Init(); // FIELD // if (mag == AliMagF::k2kG) { comment = comment.Append(" | L3 field 0.2 T"); } else if (mag == AliMagF::k5kG) { comment = comment.Append(" | L3 field 0.5 T"); } printf("\n \n Comment: %s \n \n", comment.Data()); AliMagF* field = new AliMagF("Maps","Maps", 1., 1., mag); field->SetL3ConstField(0); //Using const. field in the barrel TGeoGlobalMagField::Instance()->SetField(field); rl->CdGAFile(); // By default all ALICE is switched off Int_t iABSO=0; Int_t iACORDE=0; Int_t iDIPO=0; Int_t iFMD=0; Int_t iFRAME=0; Int_t iHALL=0; Int_t iITS=0; Int_t iMAG=0; Int_t iMUON=0; Int_t iPHOS=0; Int_t iPIPE=0; Int_t iPMD=0; Int_t iHMPID=0; Int_t iSHIL=0; Int_t iT0=0; Int_t iTOF=0; Int_t iTPC=0; Int_t iTRD=0; Int_t iZDC=0; //=================== Alice BODY parameters ============================= AliBODY *BODY = new AliBODY("BODY","Alice envelop"); if(iMAG) { //=================== MAG parameters ============================ // --- Start with Magnet since detector layouts may be depending --- // --- on the selected Magnet dimensions --- AliMAG *MAG = new AliMAG("MAG","Magnet"); } if(iABSO) { //=================== ABSO parameters ============================ AliABSO *ABSO = new AliABSOv3("ABSO","Muon Absorber"); } if(iDIPO) { //=================== DIPO parameters ============================ AliDIPO *DIPO = new AliDIPOv3("DIPO","Dipole version 3"); } if(iHALL) { //=================== HALL parameters ============================ AliHALL *HALL = new AliHALLv3("HALL","Alice Hall"); } if(iFRAME) { //=================== FRAME parameters ============================ AliFRAME *FRAME = new AliFRAMEv2("FRAME","Space Frame"); FRAME->SetHoles(1); } if(iSHIL) { //=================== SHIL parameters ============================ AliSHIL *SHIL = new AliSHILv3("SHIL","Shielding"); } if(iPIPE) { //=================== PIPE parameters ============================ AliPIPE *PIPE = new AliPIPEv3("PIPE","Beam Pipe"); } if(iITS) { //=================== ITS parameters ============================ AliITS *ITS = new AliITSv11("ITS","ITS v11"); } if(iTPC) { //============================ TPC parameters =================== AliTPC *TPC = new AliTPCv2("TPC","Default"); } if(iTOF) { //=================== TOF parameters ============================ AliTOF *TOF = new AliTOFv6T0("TOF","normal TOF"); } if(iHMPID) { //=================== HMPID parameters =========================== AliHMPID *HMPID = new AliHMPIDv3("HMPID","normal HMPID"); } if(iZDC) { //=================== ZDC parameters ============================ AliZDC *ZDC = new AliZDCv3("ZDC","normal ZDC"); } if(iACORDE) { //=================== ACORDE parameters ============================ AliACORDE *ACORDE = new AliACORDEv1("ACORDE","normal ACORDE"); } if(iTRD) { //=================== TRD parameters ============================ AliTRD *TRD = new AliTRDv1("TRD","TRD slow simulator"); } if(iFMD) { //=================== FMD parameters ============================ AliFMD *FMD = new AliFMDv0("FMD","normal FMD"); } if(iMUON) { //=================== MUON parameters =========================== AliMUON *MUON = new AliMUONv1("MUON","default"); } //=================== PHOS parameters =========================== if(iPHOS) { AliPHOS *PHOS = new AliPHOSv1("PHOS","GPS2"); } //=================== ACORDE parameters =========================== if(iACORDE) { AliACORDE *ACORDE = new AliACORDEv1("ACORDE","Normal ACORDEGPS2"); } if(iPMD) { //=================== PMD parameters ============================ AliPMD *PMD = new AliPMDv1("PMD","normal PMD"); PMD->SetPAR(1., 1., 0.8, 0.02); PMD->SetIN(6., 18., -580., 27., 27.); PMD->SetGEO(0.0, 0.2, 4.); PMD->SetPadSize(0.8, 1.0, 1.0, 1.5); } if(iT0) { //=================== T0 parameters ============================ AliT0 *T0 = new AliT0v1("T0","T0 Detector"); } } // // PYTHIA // AliGenPythia *PythiaHVQ(ProcessHvFl_t proc) { AliGenPythia * gener = 0x0; switch(proc) { case kCharmPbPb5500: comment = comment.Append(" Charm in Pb-Pb at 5.5 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyCharmPbPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(5500.); gener->SetNuclei(208,208); break; case kCharmpPb8800: comment = comment.Append(" Charm in p-Pb at 8.8 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyCharmpPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(8800.); gener->SetProjectile("P",1,1); gener->SetTarget("Pb",208,82); break; case kCharmpp14000: comment = comment.Append(" Charm in pp at 14 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyCharmppMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(14000.); break; case kCharmpp14000wmi: comment = comment.Append(" Charm in pp at 14 TeV with mult. interactions"); gener = new AliGenPythia(-1); gener->SetProcess(kPyCharmppMNRwmi); gener->SetStrucFunc(kCTEQ5L); gener->SetPtHard(ptHardMin,ptHardMax); gener->SetEnergyCMS(14000.); break; case kCharmSemiElpp14000wmi: comment = comment.Append(" Charm in pp at 14 TeV with mult. interactions"); gener = new AliGenPythia(-1); gener->SetProcess(kPyCharmppMNRwmi); gener->SetStrucFunc(kCTEQ5L); gener->SetPtHard(ptHardMin,ptHardMax); gener->SetEnergyCMS(14000.); gener->SetCutOnChild(1); gener->SetPdgCodeParticleforAcceptanceCut(11); gener->SetChildYRange(-1,1); gener->SetChildPtRange(1,10000.); break; case kD0PbPb5500: comment = comment.Append(" D0 in Pb-Pb at 5.5 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyD0PbPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(5500.); gener->SetNuclei(208,208); break; case kD0pPb8800: comment = comment.Append(" D0 in p-Pb at 8.8 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyD0pPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(8800.); gener->SetProjectile("P",1,1); gener->SetTarget("Pb",208,82); break; case kD0pp14000: comment = comment.Append(" D0 in pp at 14 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyD0ppMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(14000.); break; case kDPlusPbPb5500: comment = comment.Append(" DPlus in Pb-Pb at 5.5 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPlusPbPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(5500.); gener->SetNuclei(208,208); break; case kDPluspPb8800: comment = comment.Append(" DPlus in p-Pb at 8.8 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPluspPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(8800.); gener->SetProjectile("P",1,1); gener->SetTarget("Pb",208,82); break; case kDPluspp14000: comment = comment.Append(" DPlus in pp at 14 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPlusppMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(14000.); break; case kDPlusStrangePbPb5500: comment = comment.Append(" DPlusStrange in Pb-Pb at 5.5 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPlusStrangePbPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(5500.); gener->SetNuclei(208,208); break; case kDPlusStrangepPb8800: comment = comment.Append(" DPlusStrange in p-Pb at 8.8 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPlusStrangepPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(8800.); gener->SetProjectile("P",1,1); gener->SetTarget("Pb",208,82); break; case kDPlusStrangepp14000: comment = comment.Append(" DPlusStrange in pp at 14 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyDPlusStrangeppMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetEnergyCMS(14000.); break; case kBeautyPbPb5500: comment = comment.Append(" Beauty in Pb-Pb at 5.5 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyBeautyPbPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.75,-1.0); gener->SetEnergyCMS(5500.); gener->SetNuclei(208,208); break; case kBeautypPb8800: comment = comment.Append(" Beauty in p-Pb at 8.8 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyBeautypPbMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.75,-1.0); gener->SetEnergyCMS(8800.); gener->SetProjectile("P",1,1); gener->SetTarget("Pb",208,82); break; case kBeautypp14000: comment = comment.Append(" Beauty in pp at 14 TeV"); gener = new AliGenPythia(nEvts); gener->SetProcess(kPyBeautyppMNR); gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.75,-1.0); gener->SetEnergyCMS(14000.); break; case kBeautypp14000wmi: comment = comment.Append(" Beauty in pp at 14 TeV with mult. interactions"); gener = new AliGenPythia(-1); gener->SetProcess(kPyBeautyppMNRwmi); gener->SetStrucFunc(kCTEQ5L); gener->SetPtHard(ptHardMin,ptHardMax); gener->SetEnergyCMS(14000.); break; case kBeautySemiElpp14000wmi: comment = comment.Append(" Beauty in pp at 14 TeV with mult. interactions"); gener = new AliGenPythia(-1); gener->SetProcess(kPyBeautyppMNRwmi); gener->SetStrucFunc(kCTEQ5L); gener->SetPtHard(ptHardMin,ptHardMax); gener->SetEnergyCMS(14000.); gener->SetCutOnChild(1); gener->SetPdgCodeParticleforAcceptanceCut(11); gener->SetChildYRange(-1,1); gener->SetChildPtRange(1,10000.); break; } return gener; } void LoadPythia() { // Load Pythia related libraries gSystem->Load("liblhapdf"); // Parton density functions gSystem->Load("libEGPythia6"); // TGenerator interface gSystem->Load("libpythia6"); // Pythia gSystem->Load("libAliPythia6"); // ALICE specific implementations }