enum gentype_t {hijing, hijingParam, gun, box, pythia, param1, param2, param3, cocktail, fluka, halo, ntuple, scan, doublescan}; gentype_t gentype=param1; ntracks=1; void Config() { new AliGeant3("C++ Interface to Geant3"); //======================================================================= // Create the output file TFile *rootfile = new TFile("galice.root","recreate"); rootfile->SetCompressionLevel(2); TGeant3 *geant3 = (TGeant3*)gMC; //======================================================================= // ******* GEANT STEERING parameters FOR ALICE SIMULATION ******* geant3->SetTRIG(1); //Number of events to be processed geant3->SetSWIT(4,10); geant3->SetDEBU(0,0,1); //geant3->SetSWIT(2,2); geant3->SetDCAY(1); geant3->SetPAIR(1); geant3->SetCOMP(1); geant3->SetPHOT(1); geant3->SetPFIS(0); geant3->SetDRAY(0); geant3->SetANNI(1); geant3->SetBREM(1); geant3->SetMUNU(1); geant3->SetCKOV(1); geant3->SetHADR(1); //Select pure GEANH (HADR 1) or GEANH/NUCRIN (HADR 3) geant3->SetLOSS(2); geant3->SetMULS(1); geant3->SetRAYL(1); geant3->SetAUTO(1); //Select automatic STMIN etc... calc. (AUTO 1) or manual (AUTO 0) geant3->SetABAN(0); //Restore 3.16 behaviour for abandoned tracks geant3->SetOPTI(2); //Select optimisation level for GEANT geometry searches (0,1,2) Float_t cut = 1.e-3; // 1MeV cut by default Float_t tofmax = 1.e10; // GAM ELEC NHAD CHAD MUON EBREM MUHAB EDEL MUDEL MUPA TOFMAX geant3->SetCUTS(cut,cut, cut, cut, cut, cut, cut, cut, cut, cut, tofmax); // //======================================================================= // ************* STEERING parameters FOR ALICE SIMULATION ************** // --- Specify event type to be tracked through the ALICE setup // --- All positions are in cm, angles in degrees, and P and E in GeV switch(gentype) { case gun: //********************************************* // Example for Fixed Particle Gun //********************************************* AliGenFixed *gener = new AliGenFixed(ntracks); gener->SetMomentum(50); gener->SetPhi(180.); gener->SetTheta(5.); gener->SetOrigin(0,0,0); //vertex position gener->SetPart(13); //GEANT particle type break; case box: //********************************************* // Example for Moving Particle Gun * //********************************************* AliGenBox *gener = new AliGenBox(ntracks); gener->SetMomentumRange(3,4); gener->SetPhiRange(0,360); gener->SetThetaRange(90, 180. ); gener->SetOrigin(0,0,0); //vertex position gener->SetSigma(0,0,0); //Sigma in (X,Y,Z) (cm) on IP position gener->SetPart(5); //GEANT particle type break; case scan: //********************************************* // Scanning on a grid * //********************************************* AliGenScan *gener = new AliGenScan(-1); gener->SetMomentumRange(4,4); gener->SetPhiRange(0,360); gener->SetThetaRange(9,9); //vertex position gener->SetSigma(6,6,0); //Sigma in (X,Y,Z) (cm) on IP position gener->SetPart(5); gener->SetRange(20, -100, 100, 20, -100, 100, 1, 500, 500); break; case hijingParam: AliGenHIJINGpara *gener = new AliGenHIJINGpara(ntracks); gener->SetMomentumRange(0,999); gener->SetPhiRange(0,360); gener->SetThetaRange(2,10); gener->SetOrigin(0,0,0); //vertex position gener->SetSigma(0,0,0); //Sigma in (X,Y,Z) (cm) on IP position break; case hijing: AliGenHijing *gener = new AliGenHijing(-1); // centre of mass energy gener->SetEnergyCMS(5500); // reference frame gener->SetReferenceFrame("CMS "); // projectile gener->SetProjectile("A ", 208, 82); gener->SetTarget ("A ", 208, 82); // impact parameter range gener->SetImpactParameterRange(0, 3.); // evaluate cross section before run gener->SetEvaluate(1); // tell hijing to keep the full parent child chain gener->KeepFullEvent(); // enable jet quenching gener->SetJetQuenching(1); // enable shadowing gener->SetShadowing(1); // neutral pion and heavy particle decays switched off gener->SetDecaysOff(1); // trigger gener->SetTrigger(0); // kinematic selection gener->SetSelectAll(0); // momentum range gener->SetMomentumRange(0,999); // phi range gener->SetPhiRange(-180,180); // theta range gener->SetThetaRange(0,180.); // select flavor (0: no, 4: charm+beauty, 5:beauty) gener->SetFlavor(4); // gener->SetOrigin(0., 0.0 ,0); gener->SetSigma(0,0,5.3); gener->SetVertexSmear(kPerEvent); // no tracking gener->SetTrackingFlag(0); break; case pythia: //******************************************** // Example for Charm Production with Pythia * //******************************************** AliGenPythia *gener = new AliGenPythia(-1); // final state kinematic cuts gener->SetMomentumRange(0,999); gener->SetPhiRange(-180,180); gener->SetThetaRange(0., 180.); gener->SetYRange(-10,10); gener->SetPtRange(0,100); // vertex position and smearing gener->SetOrigin(0,0,0); // vertex position gener->SetVertexSmear(kPerEvent); gener->SetSigma(0,0,5.6); // Sigma in (X,Y,Z) (cm) on IP position // Structure function // DO_Set_1 // GRV_LO // GRV_HO // MRS_D_minus // MRS_D0 // MRS_G // CTEQ_2pM // CTEQ_4M gener->SetStrucFunc(GRV_HO); // Select corection for nuclear structure functions // gener->SetNuclei(208,208); // // Process type // charm, beauty, charm_unforced, beauty_unforced, jpsi, jpsi_chi, mb gener->SetProcess(beauty); // // Pt transfer of the hard scattering gener->SetPtHard(0.,5.); // Decay type (semielectronic, semimuonic, nodecay) gener->SetForceDecay(semielectronic); // Centre of mass energy gener->SetEnergyCMS(5500.); // No Tracking gener->SetTrackingFlag(0); break; case param1: //******************************************************* // Example for J/psi Production from Parameterisation // using default library (AliMUONlib) //******************************************************* AliGenParam *gener = new AliGenParam(ntracks,upsilon_p); gener->SetMomentumRange(0,999); gener->SetPtRange(0,999); gener->SetPhiRange(-180, 180); gener->SetYRange(2.5,4); gener->SetCutOnChild(1); gener->SetChildThetaRange(2,9); gener->SetOrigin(0,0,0); //vertex position gener->SetSigma(0,0,5.3); //Sigma in (X,Y,Z) (cm) on IP position gener->SetForceDecay(dimuon); gener->SetTrackingFlag(0); break; case param2: //******************************************************* // Example for Omega Production from Parameterisation // specifying library. //******************************************************* AliGenParam *gener = new AliGenParam(1000,new AliGenPHOSlib(), Omega); gener->SetWeighting(non_analog); gener->SetForceDecay(nodecay); gener->SetPtRange(0,100); gener->SetThetaRange(45,135); gener->SetTrackingFlag(0); break; case param3: //******************************************************* // Example for Upsilon Production from Parameterisation // specifying library. // GSI style //******************************************************* AliGenParam *gener = new AliGenParam(1000,new AliGenGSIlib(), upsilon_p, "MUON"); gener->SetMomentumRange(0,999); gener->SetPtRange(0,999); gener->SetPhiRange(-180, 180); gener->SetYRange(2.5,4); gener->SetCutOnChild(1); gener->SetChildThetaRange(2,9); gener->SetOrigin(0,0,0); //vertex position gener->SetSigma(0,0,5.3); //Sigma in (X,Y,Z) (cm) on IP position gener->SetForceDecay(dimuon); gener->SetTrackingFlag(0); break; case param4: //******************************************************* // Example for Omega Production from Parameterisation // specifying library. // The alternative way. //******************************************************* AliGenLib* Lib=new AliGenPHOSlib(); AliGenParam *gener = new AliGenParam(50,Omega, Lib->GetPt(Omega), Lib->GetY(Omega), Lib->GetIp(Omega)); gener->SetWeighting(non_analog); gener->SetForceDecay(nodecay); gener->SetTrackingFlag(0); break; case fluka: //******************************************************* // Example for a FLUKA Boundary Source * //******************************************************* AliGenFLUKAsource *gener = new AliGenFLUKAsource(-1); gener->SetFileName("$(ALICE_ROOT)/data/all32.root"); gener->SetPartFlag(9); gener->SetAgeMax(1.e-5); // 31.7 events gener->SetFraction(0.0315); // gener->SetFraction(0.75*0.0315); rootfile->cd(); // gener->SetPartFlag(10); gener->SetMomentumRange(0,999); gener->SetPhiRange(0,360); gener->SetThetaRange(0., 180.); gener->SetAgeMax(1.e-5); // 31.7 events // gener->SetFraction(0.0315); break; case ntuple: //******************************************************* // Example for reading from a external file * //******************************************************* AliGenExtFile *gener = new AliGenExtFile(-1); gener->SetFileName("$(ALICE_ROOT)/data/dtujet93.root"); gener->SetVertexSmear(kPerEvent); gener->SetTrackingFlag(1); break; case halo: //******************************************************* // Example for Tunnel Halo Source * //******************************************************* AliGenHalo *gener = new AliGenHalo(ntracks); gener->SetFileName("/h1/morsch/marsip/marsip5.mu"); break; case cocktail: //******************************************************* // Example for a Cocktail * //******************************************************* AliGenCocktail *gener = new AliGenCocktail(); gener->SetPhiRange(0,360); gener->SetYRange(2.5,4); gener->SetThetaRange(2,9); gener->SetPtRange(0,10); gener->SetOrigin(0,0,0); //vertex position gener->SetSigma(0,0,0); //Sigma in (X,Y,Z) (cm) on IP position gener->SetMomentumRange(0,999); AliGenParam *jpsi = new AliGenParam(1,jpsi_p); jpsi->SetForceDecay(dimuon); jpsi->SetCutOnChild(1); AliGenFLUKAsource *bg = new AliGenFLUKAsource(-1); bg->AddFile("$(ALICE_ROOT)/data/all32.root"); rootfile->cd(); bg->SetPartFlag(9); bg->SetAgeMax(1.e-5); // 31.7 events // gener->SetFraction(0.0315); bg->SetFraction(0.01*0.0315); gener->AddGenerator(jpsi,"J/Psi", 1); gener->AddGenerator(bg,"Background",1); break; } // Activate this line if you want the vertex smearing to happen // track by track // // gener->SetVertexSmear(kPerTrack); gener->Init(); gAlice->SetField(-999,2); //Specify maximum magnetic field in Tesla (neg. ==> default field) Int_t iMAG=1; Int_t iITS=1; Int_t iTPC=1; Int_t iTOF=1; Int_t iRICH=1; Int_t iZDC=0; Int_t iCASTOR=1; Int_t iTRD=1; Int_t iABSO=1; Int_t iDIPO=1; Int_t iHALL=1; Int_t iFRAME=1; Int_t iSHIL=1; Int_t iPIPE=1; Int_t iFMD=0; Int_t iMUON=1; Int_t iPHOS=1; Int_t iPMD=1; Int_t iSTART=1; //=================== 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 AliABSOv0("ABSO","Muon Absorber"); } if(iDIPO) { //=================== DIPO parameters ============================ AliDIPO *DIPO = new AliDIPOv2("DIPO","Dipole version 2"); } if(iHALL) { //=================== HALL parameters ============================ AliHALL *HALL = new AliHALL("HALL","Alice Hall"); } if(iFRAME) { //=================== FRAME parameters ============================ AliFRAME *FRAME = new AliFRAMEv1("FRAME","Space Frame"); } if(iSHIL) { //=================== SHIL parameters ============================ AliSHIL *SHIL = new AliSHILv0("SHIL","Shielding"); } if(iPIPE) { //=================== PIPE parameters ============================ AliPIPE *PIPE = new AliPIPEv0("PIPE","Beam Pipe"); } if(iITS) { //=================== ITS parameters ============================ // // EUCLID is a flag to output (=1) both geometry and media to two ASCII files // (called by default ITSgeometry.euc and ITSgeometry.tme) in a format // understandable to the CAD system EUCLID. The default (=0) means that you // dont want to use this facility. // AliITS *ITS = new AliITSv5("ITS","normal ITS"); ITS->SetEUCLID(0); } if(iTPC) { //============================ TPC parameters ================================ // --- This allows the user to specify sectors for the SLOW (TPC geometry 2) // --- Simulator. SecAL (SecAU) <0 means that ALL lower (upper) // --- sectors are specified, any value other than that requires at least one // --- sector (lower or upper)to be specified! // --- Reminder: sectors 1-24 are lower sectors (1-12 -> z>0, 13-24 -> z<0) // --- sectors 25-72 are the upper ones (25-48 -> z>0, 49-72 -> z<0) // --- SecLows - number of lower sectors specified (up to 6) // --- SecUps - number of upper sectors specified (up to 12) // --- Sens - sensitive strips for the Slow Simulator !!! // --- This does NOT work if all S or L-sectors are specified, i.e. // --- if SecAL or SecAU < 0 // // //----------------------------------------------------------------------------- gROOT->LoadMacro("SetTPCParam.C"); AliTPCParam *param = SetTPCParam(); AliTPC *TPC = new AliTPCv1("TPC","Normal TPC"); //v1 is default TPC->SetParam(param); // pass the parameter object to the TPC // set gas mixture TPC->SetGasMixt(2,20,10,-1,0.9,0.1,0.); TPC->SetSecAL(4); TPC->SetSecAU(4); TPC->SetSecLows(1, 2, 3, 19, 20, 21); TPC->SetSecUps(37, 38, 39, 37+18, 38+18, 39+18, -1, -1, -1, -1, -1, -1); TPC->SetSens(1); if (TPC->IsVersion()==1) param->Write(param->GetTitle()); } if(iTOF) { //=================== TOF parameters ============================ AliTOF *TOF = new AliTOFv1("TOF","normal TOF"); } if(iRICH) { //=================== RICH parameters =========================== AliRICH *RICH = new AliRICHv0("RICH","normal RICH"); // // Version 0 // Default Segmentation AliRICHSegmentationV0* SegmentationV0 = new AliRICHSegmentationV0; // // Segmentation parameters SegmentationV0->SetPadSize(0.84,0.80); SegmentationV0->SetDAnod(0.84/2); // // Geometry parameters AliRICHGeometry* GeometryV0 = new AliRICHGeometryV0; GeometryV0->SetGapThickness(7.6); GeometryV0->SetProximityGapThickness(.4); GeometryV0->SetQuartzLength(131); GeometryV0->SetQuartzWidth(126.2); GeometryV0->SetQuartzThickness(.5); GeometryV0->SetOuterFreonLength(131); GeometryV0->SetOuterFreonWidth(40.3); GeometryV0->SetInnerFreonLength(131); GeometryV0->SetInnerFreonWidth(40.3); GeometryV0->SetFreonThickness(1); // // Response parameters AliRICHResponseV0* Rresponse0 = new AliRICHResponseV0; Rresponse0->SetSigmaIntegration(5.); Rresponse0->SetChargeSlope(41.); Rresponse0->SetChargeSpread(0.18, 0.18); Rresponse0->SetMaxAdc(1024); Rresponse0->SetAlphaFeedback(0.05); Rresponse0->SetEIonisation(26.e-9); Rresponse0->SetSqrtKx3(0.77459667); Rresponse0->SetKx2(0.962); Rresponse0->SetKx4(0.379); Rresponse0->SetSqrtKy3(0.77459667); Rresponse0->SetKy2(0.962); Rresponse0->SetKy4(0.379); Rresponse0->SetPitch(0.25); // // for (Int_t i=0; i<7; i++) { RICH->SetGeometryModel(i,GeometryV0); RICH->SetSegmentationModel(i, SegmentationV0); RICH->SetResponseModel(i, Rresponse0); RICH->SetNsec(i,1); } } if(iZDC) { //=================== ZDC parameters ============================ AliZDC *ZDC = new AliZDCv1("ZDC","normal ZDC"); } if(iCASTOR) { //=================== CASTOR parameters ============================ AliCASTOR *CASTOR = new AliCASTORv1("CASTOR","normal CASTOR"); } if(iTRD) { //=================== TRD parameters ============================ AliTRD *TRD = new AliTRDv0("TRD","TRD fast simulator"); //TRD->SetHits(); //AliTRD *TRD = new AliTRDv1("TRD","TRD slow simulator"); //TRD->SetSensPlane(0); //TRD->SetSensChamber(2); //TRD->SetSensSector(17); // Select the gas mixture (0: 97% Xe + 3% isobutane, 1: 90% Xe + 10% CO2) TRD->SetGasMix(1); // With hole in front of PHOS TRD->SetPHOShole(); // With hole in front of RICH TRD->SetRICHhole(); } if(iFMD) { //=================== FMD parameters ============================ AliFMD *FMD = new AliFMDv1("FMD","normal FMD"); } if(iMUON) { //=================== MUON parameters =========================== AliMUON *MUON = new AliMUONv0("MUON","normal MUON"); MUON->SetMaxStepGas(0.1); MUON->SetMaxStepAlu(0.1); // // Version 0 // // First define the number of planes that are segmented (1 or 2) by a call // to SetNsec. // Then chose for each chamber (chamber plane) the segmentation // and response model. // They should be equal for the two chambers of each station. In a future // version this will be enforced. // // Int_t chamber; Int_t station; // Default response AliMUONresponseV0* response0 = new AliMUONresponseV0; response0->SetSqrtKx3(0.7131); response0->SetKx2(1.0107); response0->SetKx4(0.4036); response0->SetSqrtKy3(0.7642); response0->SetKy2(0.9706); response0->SetKy4(0.3831); response0->SetPitch(0.25); response0->SetSigmaIntegration(10.); response0->SetChargeSlope(50); response0->SetChargeSpread(0.18, 0.18); response0->SetMaxAdc(4096); //-------------------------------------------------------- // Configuration for Chamber TC1/2 (Station 1) ---------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ // Float_t rseg1[4]={17.5, 55.2, 71.3, 95.5}; Float_t rseg1[4]={15.5, 55.2, 71.3, 95.5}; Int_t nseg1[4]={4, 4, 2, 1}; // chamber=1; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV01 *seg11=new AliMUONsegmentationV01; seg11->SetSegRadii(rseg1); seg11->SetPADSIZ(3, 0.5); seg11->SetDAnod(3.0/3./4); seg11->SetPadDivision(nseg1); MUON->SetSegmentationModel(chamber-1, 1, seg11); // AliMUONsegmentationV02 *seg12=new AliMUONsegmentationV02; seg12->SetSegRadii(rseg1); seg12->SetPADSIZ(0.75, 2.0); seg12->SetDAnod(3.0/3./4); seg12->SetPadDivision(nseg1); MUON->SetSegmentationModel(chamber-1, 2, seg12); MUON->SetResponseModel(chamber-1, response0); chamber=2; //^^^^^^^^^ // MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV01 *seg21=new AliMUONsegmentationV01; seg21->SetSegRadii(rseg1); seg21->SetPADSIZ(3, 0.5); seg21->SetDAnod(3.0/3./4); seg21->SetPadDivision(nseg1); MUON->SetSegmentationModel(chamber-1, 1, seg21); // AliMUONsegmentationV02 *seg22=new AliMUONsegmentationV02; seg22->SetSegRadii(rseg1); seg22->SetPADSIZ(0.75, 2.); seg22->SetDAnod(3.0/3./4); seg22->SetPadDivision(nseg1); MUON->SetSegmentationModel(chamber-1, 2, seg22); MUON->SetResponseModel(chamber-1, response0); // //-------------------------------------------------------- // Configuration for Chamber TC3/4 ----------------------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ // Float_t rseg2[4]={23.5, 47.1, 87.7, 122.5}; Float_t rseg2[4]={21.5, 47.1, 87.7, 122.5}; Int_t nseg2[4]={4, 4, 2, 1}; // chamber=3; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV01 *seg31=new AliMUONsegmentationV01; seg31->SetSegRadii(rseg2); seg31->SetPADSIZ(3, 0.5); seg31->SetDAnod(3.0/3./4); seg31->SetPadDivision(nseg2); MUON->SetSegmentationModel(chamber-1, 1, seg31); // AliMUONsegmentationV02 *seg32=new AliMUONsegmentationV02; seg32->SetSegRadii(rseg2); seg32->SetPADSIZ(0.75, 2.); seg32->SetPadDivision(nseg2); seg32->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 2, seg32); MUON->SetResponseModel(chamber-1, response0); chamber=4; //^^^^^^^^^ // MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV01 *seg41=new AliMUONsegmentationV01; seg41->SetSegRadii(rseg2); seg41->SetPADSIZ(3, 0.5); seg41->SetDAnod(3.0/3./4); seg41->SetPadDivision(nseg2); MUON->SetSegmentationModel(chamber-1, 1, seg41); // AliMUONsegmentationV02 *seg42=new AliMUONsegmentationV02; seg42->SetSegRadii(rseg2); seg42->SetPADSIZ(0.75, 2.); seg42->SetPadDivision(nseg2); seg42->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 2, seg42); MUON->SetResponseModel(chamber-1, response0); //-------------------------------------------------------- // Configuration for Chamber TC5/6 ----------------------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ /* seg5 = new AliMUONsegmentationV1; AliMUONresponseV0* response5 = new AliMUONresponseV0; // K3 = 0.62 response5->SetSqrtKx3(0.78740079); response5->SetKx2(0.95237319); // 0.5 * kPI * (1- 0.5*sqrtky3 ) response5->SetKx4(0.37480633); // 0.25/TMath::ATan(sqrtkx3) // K3 = 0.55 response5->SetSqrtKy3(0.74161985); response5->SetKy2(0.98832946); response5->SetKy4(0.39177817); response5->SetPitch(0.325); response5->SetSigmaIntegration(10.); response5->SetChargeSlope(50); response5->SetChargeSpread(0.4, 0.4); response5->SetMaxAdc(4096); chamber=5; MUON->SetNsec(chamber-1,1); MUON->SetSegmentationModel(chamber-1, 1, seg5); MUON->SetResponseModel(chamber-1, response5); chamber=6; MUON->SetNsec(chamber-1,1); MUON->SetSegmentationModel(chamber-1, 1, seg5); MUON->SetResponseModel(chamber-1, response5); // // Station 3 station=3; MUON->SetPADSIZ(station, 1, 0.975, 0.55); */ chamber=5; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV0 *seg51=new AliMUONsegmentationV0; seg51->SetPADSIZ(0.75, 0.5); seg51->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 1, seg51); // AliMUONsegmentationV0 *seg52=new AliMUONsegmentationV0; seg52->SetPADSIZ(0.5,0.75); seg52->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 2, seg52); MUON->SetResponseModel(chamber-1, response0); chamber=6; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV0 *seg61=new AliMUONsegmentationV0; seg61->SetPADSIZ(0.75, 0.5); seg61->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 1, seg61); // AliMUONsegmentationV0 *seg62=new AliMUONsegmentationV0; seg62->SetPADSIZ(0.5,0.75); seg62->SetDAnod(3.0/3./4); MUON->SetSegmentationModel(chamber-1, 2, seg62); MUON->SetResponseModel(chamber-1, response0); //-------------------------------------------------------- // Configuration for Chamber TC7/8 (Station 4) ---------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Int_t nseg4[4]={4, 4, 2, 1}; chamber=7; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV04 *seg71=new AliMUONsegmentationV04; seg71->SetPADSIZ(10.,0.5); seg71->SetDAnod(0.25); seg71->SetPadDivision(nseg4); MUON->SetSegmentationModel(chamber-1, 1, seg71); AliMUONsegmentationV05 *seg72=new AliMUONsegmentationV05; seg72->SetPADSIZ(1,10); seg72->SetDAnod(0.25); seg72->SetPadDivision(nseg4); MUON->SetSegmentationModel(chamber-1, 2, seg72); MUON->SetResponseModel(chamber-1, response0); chamber=8; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); AliMUONsegmentationV04 *seg81=new AliMUONsegmentationV04; seg81->SetPADSIZ(10., 0.5); seg81->SetPadDivision(nseg4); seg81->SetDAnod(0.25); MUON->SetSegmentationModel(chamber-1, 1, seg81); AliMUONsegmentationV05 *seg82=new AliMUONsegmentationV05; seg82->SetPADSIZ(1, 10); seg82->SetPadDivision(nseg4); seg82->SetDAnod(0.25); MUON->SetSegmentationModel(chamber-1, 2, seg82); MUON->SetResponseModel(chamber-1, response0); //-------------------------------------------------------- // Configuration for Chamber TC9/10 (Station 5) --------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ chamber=9; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); // AliMUONsegmentationV04 *seg91=new AliMUONsegmentationV04; seg91->SetPADSIZ(10.,0.5); seg91->SetDAnod(0.25); seg91->SetPadDivision(nseg4); MUON->SetSegmentationModel(chamber-1, 1, seg91); AliMUONsegmentationV05 *seg92=new AliMUONsegmentationV05; seg92->SetPADSIZ(1,10); seg92->SetDAnod(0.25); seg92->SetPadDivision(nseg4); MUON->SetSegmentationModel(chamber-1, 2, seg92); MUON->SetResponseModel(chamber-1, response0); chamber=10; //^^^^^^^^^ MUON->SetNsec(chamber-1,2); AliMUONsegmentationV04 *seg101=new AliMUONsegmentationV04; seg101->SetPADSIZ(10., 0.5); seg101->SetPadDivision(nseg4); seg101->SetDAnod(0.25); MUON->SetSegmentationModel(chamber-1, 1, seg101); AliMUONsegmentationV05 *seg102=new AliMUONsegmentationV05; seg102->SetPADSIZ(1,10); seg102->SetPadDivision(nseg4); seg102->SetDAnod(0.25); MUON->SetSegmentationModel(chamber-1, 2, seg102); MUON->SetResponseModel(chamber-1, response0); //-------------------------------------------------------- // Configuration for Trigger staions --------------------- // (not yet used/implemented) ---------------------------- //^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ chamber=11; MUON->SetNsec(chamber-1,1); AliMUONsegmentationV0 *seg1112=new AliMUONsegmentationV0; seg1112->SetDAnod(0.51/3.); MUON->SetSegmentationModel(chamber-1, 1, seg1112); MUON->SetResponseModel(chamber-1, response0); chamber=12; MUON->SetNsec(chamber-1,1); MUON->SetSegmentationModel(chamber-1, 1, seg1112); MUON->SetResponseModel(chamber-1, response0); // // Trigger Station 1 station=6; MUON->SetPADSIZ(station, 1, 0.75, 0.5); chamber=13; MUON->SetNsec(chamber-1,1); AliMUONsegmentationV0 *seg1314=new AliMUONsegmentationV0; seg1314->SetDAnod(0.51/3.); MUON->SetSegmentationModel(chamber-1, 1, seg1314); MUON->SetResponseModel(chamber-1, response0); chamber=14; MUON->SetNsec(chamber-1,1); MUON->SetSegmentationModel(chamber-1, 1, seg1314); MUON->SetResponseModel(chamber-1, response0); // // Trigger Station 2 station=7; MUON->SetPADSIZ(station, 1, 0.75, 0.5); } //=================== PHOS parameters =========================== if(iPHOS) { AliPHOS *PHOS = new AliPHOSv0("PHOS","GPS2"); } if(iPMD) { //=================== PMD parameters ============================ AliPMD *PMD = new AliPMDv0("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(iSTART) { //=================== START parameters ============================ AliSTART *START = new AliSTARTv0("START","START Detector"); } }