fhDeltaPhiDecayCharged(0), fhXEDecayCharged(0), fhZTDecayCharged(0),
fhDeltaPhiDecayNeutral(0), fhXEDecayNeutral(0), fhZTDecayNeutral(0),
fhDeltaPhiDecayChargedAssocPtBin(0),
- fh2phiTriggerParticle(0x0),
fhMCPtTrigger(0), fhMCPhiTrigger(0), fhMCEtaTrigger(0),
fhMCPtTriggerNotLeading(0), fhMCPhiTriggerNotLeading(0), fhMCEtaTriggerNotLeading(0),
fhMCEtaCharged(0), fhMCPhiCharged(0),
fhPtTrigPout =
new TH2F("hPtTrigPout","Pout with triggers",
- nptbins,ptmin,ptmax,nptbins,-ptmax/2,ptmax/2);
+ nptbins,ptmin,ptmax,nptbins,-1.*ptmax/2.,ptmax/2.);
fhPtTrigPout->SetYTitle("#it{p}_{out} (GeV/#it{c})");
fhPtTrigPout->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})");
//if data is MC, fill more histograms
if(IsDataMC())
{
- fh2phiTriggerParticle = new TH2F("h2PhiTriggerParticle","#phi resolution for trigger particles",nptbins,ptmin,ptmax,100,-1,1);
- fh2phiTriggerParticle->GetXaxis()->SetTitle("#it{p}_{T gen Trigger} (GeV/#it{c})");
- fh2phiTriggerParticle->GetYaxis()->SetTitle("(#phi_{rec}-#phi_{gen})/#phi_{gen}");
-
fhMCPtTrigger = new TH1F ("hMCPtTrigger","MC : trigger #it{p}_{T}", nptbins,ptmin,ptmax);
fhMCPtTrigger->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})");
fhMCPtTrigPout =
new TH2F("hMCPtTrigPout","AOD MC Pout with triggers",
- nptbins,ptmin,ptmax,2*nptbins,-ptmax,ptmax);
+ nptbins,ptmin,ptmax,nptbins,-1.*ptmax/2.,ptmax/2.);
fhMCPtTrigPout->SetYTitle("#it{p}_{out} (GeV/#it{c})");
fhMCPtTrigPout->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})");
fhMCPtAssocDeltaPhi->SetYTitle("#Delta #phi (rad)");
fhMCPtAssocDeltaPhi->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})");
- outputContainer->Add(fh2phiTriggerParticle);
outputContainer->Add(fhMCPtTrigger);
outputContainer->Add(fhMCPhiTrigger);
outputContainer->Add(fhMCEtaTrigger);