/*if(fIspASystem){
fBeamType = "p-A";
AliInfo(" AliZDCDigitizer -> Manually setting beam type to p-A\n");
- }*/
+ }*/
// Setting beam type for spectator generator and RELDIS generator
if(((fBeamType.CompareTo("UNKNOWN")) == 0) || fIsRELDISgen){
fBeamType = "A-A";
AliInfo(" AliZDCDigitizer -> Manually setting beam type to A-A\n");
}
- printf("\t AliZDCDigitizer -> beam type %s - beam energy = %f GeV\n", fBeamType.Data(), fBeamEnergy);
+ printf("\n\t AliZDCDigitizer -> beam type %s - beam energy = %f GeV\n", fBeamType.Data(), fBeamEnergy);
+ if(fSpectators2Track) printf("\t AliZDCDigitizer -> spectator signal added at digit level\n");
if(fBeamEnergy>0.1){
ReadPMTGains();
else if(genHeader->InheritsFrom(AliGenCocktailEventHeader::Class())){
TList* listOfHeaders = ((AliGenCocktailEventHeader*) genHeader)->GetHeaders();
if(listOfHeaders){
- hijingHeader = dynamic_cast <AliGenHijingEventHeader*> (listOfHeaders->FindObject("Hijing"));
- if(!hijingHeader) hijingHeader = dynamic_cast <AliGenHijingEventHeader*> (listOfHeaders->FindObject("HijingpPbPb"));
- if(!hijingHeader) hijingHeader = dynamic_cast <AliGenHijingEventHeader*> (listOfHeaders->FindObject("HijingpPb"));
- if(!hijingHeader) hijingHeader = dynamic_cast <AliGenHijingEventHeader*> (listOfHeaders->FindObject("HijingpPb_0"));
+ for(Int_t iH = 0; iH < listOfHeaders->GetEntries(); ++iH) {
+ AliGenEventHeader *currHeader = dynamic_cast <AliGenEventHeader *> (listOfHeaders->At(iH));
+ if (currHeader && currHeader->InheritsFrom(AliGenHijingEventHeader::Class())) {
+ hijingHeader = dynamic_cast <AliGenHijingEventHeader*> (currHeader);
+ break;
+ }
+ }
}
else{
- AliWarning(" No list of headers from generator -> skipping event\n");
- continue;
+ printf(" No list of headers from generator \n");
}
}
if(!hijingHeader){
printf(" No HIJING header found in list of headers from generator\n");
- //continue;
}
- if(fSpectators2Track==kTRUE){
+ if(hijingHeader && fSpectators2Track==kTRUE){
impPar = hijingHeader->ImpactParameter();
specNProj = hijingHeader->ProjSpectatorsn();
specPProj = hijingHeader->ProjSpectatorsp();
specNTarg = hijingHeader->TargSpectatorsn();
specPTarg = hijingHeader->TargSpectatorsp();
- AliInfo(Form("\t AliZDCDigitizer: b = %1.2f fm\n"
+ printf("\t AliZDCDigitizer: b = %1.2f fm\n"
" \t PROJECTILE: #spectator n %d, #spectator p %d\n"
" \t TARGET: #spectator n %d, #spectator p %d\n",
- impPar, specNProj, specPProj, specNTarg, specPTarg));
+ impPar, specNProj, specPProj, specNTarg, specPTarg);
// Applying fragmentation algorithm and adding spectator signal
Int_t freeSpecNProj=0, freeSpecPProj=0;
if(specNTarg!=0 || specPTarg!=0) Fragmentation(impPar, specNTarg, specPTarg, freeSpecNTarg, freeSpecPTarg);
if(freeSpecNProj!=0) SpectatorSignal(1, freeSpecNProj, pm);
if(freeSpecPProj!=0) SpectatorSignal(2, freeSpecPProj, pm);
- AliInfo(Form("\t AliZDCDigitizer -> Adding spectator signal for PROJECTILE: %d free n and %d free p\n",freeSpecNProj,freeSpecPProj));
+ printf("\t AliZDCDigitizer -> Adding spectator signal for PROJECTILE: %d free n and %d free p\n",freeSpecNProj,freeSpecPProj);
if(freeSpecNTarg!=0) SpectatorSignal(3, freeSpecNTarg, pm);
if(freeSpecPTarg!=0) SpectatorSignal(4, freeSpecPTarg, pm);
- AliInfo(Form("\t AliZDCDigitizer -> Adding spectator signal for TARGET: %d free n and %d free p\n",freeSpecNTarg,freeSpecPTarg));
+ printf("\t AliZDCDigitizer -> Adding spectator signal for TARGET: %d free n and %d free p\n",freeSpecNTarg,freeSpecPTarg);
}
}
//Ch. debug
//printf("\t DIGIT added -> det %d quad %d - digi[0,1] = [%d, %d]\n",
- // sector[0], sector[1], digi[0], digi[1]); // Chiara debugging!
+ // sector[0], sector[1], digi[0], digi[1]); // Chiara debugging!
}
} // Loop over detector
for(Int_t j = 0; j < 5; j++){
fPMGain[0][j] = 1.515831*(661.444/fBeamEnergy+0.000740671)*10000000; //ZNC (p)
fPMGain[1][j] = 0.674234*(864.350/fBeamEnergy+0.00234375)*10000000; //ZPC (p)
- fPMGain[2][j] = npartScalingFactor*100000./scalGainFactor; // ZEM (Pb)
+ if(j<2) fPMGain[2][j] = npartScalingFactor*100000./scalGainFactor; // ZEM (Pb)
// Npart max scales from 400 in Pb-Pb to ~8 in pPb -> *40.
fPMGain[3][j] = npartScalingFactor*50000/(4*scalGainFactor); // ZNA (Pb)
fPMGain[4][j] = npartScalingFactor*100000/(5*scalGainFactor); // ZPA (Pb)
printf("\n AliZDCDigitizer::CalculatePMTGains -> ZDC PMT gains for p-Pb: ZNC(%1.0f), ZPC(%1.0f), ZEM(%1.0f), ZNA(%1.0f) ZPA(%1.0f)\n",
fPMGain[0][0], fPMGain[1][0], fPMGain[2][1], fPMGain[3][0], fPMGain[4][0]);
}
+ else if(((fBeamType.CompareTo("A-p")) == 0) || ((fBeamType.CompareTo("A-P"))) ){
+ // PTM gains for Pb-Pb @ 1.38+1.38 A TeV on side
+ // PTM gains rescaled to beam energy for p-p on side C
+ // WARNING! Energies are set by hand for 2011 pA RUN!!!
+ Float_t scalGainFactor = fBeamEnergy/2760.;
+ Float_t npartScalingFactor = 208./15.;
+
+ for(Int_t j = 0; j < 5; j++){
+ fPMGain[3][j] = 1.350938*(661.444/fBeamEnergy+0.000740671)*10000000; //ZNA (p)
+ fPMGain[4][j] = 0.678597*(864.350/fBeamEnergy+0.00234375)*10000000; //ZPA (p)
+ // Npart max scales from 400 in Pb-Pb to ~8 in pPb -> *40.
+ fPMGain[1][j] = npartScalingFactor*50000/(4*scalGainFactor); // ZNC (Pb)
+ fPMGain[2][j] = npartScalingFactor*100000/(5*scalGainFactor); // ZPC (Pb)
+ }
+ fPMGain[2][1] = 0.869654*(1.32312-0.000101515*fBeamEnergy)*10000000; // ZEM (pp)
+ fPMGain[2][2] = 1.030883*(1.32312-0.000101515*fBeamEnergy)*10000000; // ZEM (pp)
+ printf("\n AliZDCDigitizer::CalculatePMTGains -> ZDC PMT gains for p-Pb: ZNC(%1.0f), ZPC(%1.0f), ZEM(%1.0f), ZNA(%1.0f) ZPA(%1.0f)\n",
+ fPMGain[0][0], fPMGain[1][0], fPMGain[2][1], fPMGain[3][0], fPMGain[4][0]);
+ }
}
//_____________________________________________________________________________
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff