TH1D *efficiencyHadronITSCB10 = GetHistoEfficiency(etacut,"hEfficiencyHadronITSCB10",0,1,20,false,true,10,15);
for(int i=10;i<=20;i++) hadCorrectionEMCAL->SetEfficiencyHadronITS((TH1D*)efficiencyHadronITSCB10->Clone(Form("Test%i",i)),i);//Hadron
}//EMCAL
- hadCorrectionEMCAL->SetEfficiencyErrorLowBound(0.99);
- hadCorrectionEMCAL->SetEfficiencyErrorHighBound(1.01);
+ hadCorrectionEMCAL->SetEfficiencyErrorLowBound(0.95);
+ hadCorrectionEMCAL->SetEfficiencyErrorHighBound(1.05);
//CorrEfficiencyPlots(true,prodname,shortprodname);
//CorrEfficiencyPlots(false,prodname,shortprodname,infilename);
//hadCorrectionEMCAL->GetEfficiencyHadronTPC()->Draw();
TH1D *backgroundTPC;
TH1D *backgroundITS;
- if((dataset==20111 || dataset==20100) && !forSim){//2.76 TeV p+p or Pb+Pb
+ if((dataset==20111 || dataset==20100|| dataset==2011) && !forSim){//2.76 TeV p+p or Pb+Pb
if(dataset==20111){
cout<<"Fixing 2.76 TeV p+p background to be average of 900 GeV and 7 TeV scaling"<<endl;
backgroundTPC = pp276TPCBkgd();
bkgdpcterror = 0.13;
break;
case 20100:
+ case 2011:
bkgdpcterror = 0.76;
break;
}
TH1D *efficiencyHadronITSCB10 = GetHistoEfficiency(etacut,"hEfficiencyHadronITSCB10",0,1,20,false,true,10,15);
for(int i=10;i<=20;i++) hadCorrectionPHOS->SetEfficiencyHadronITS((TH1D*)efficiencyHadronITSCB10->Clone(Form("Test%i",i)),i);//Hadron
}//EMCAL
+ hadCorrectionPHOS->SetEfficiencyErrorLowBound(0.95);
+ hadCorrectionPHOS->SetEfficiencyErrorHighBound(1.05);
TH1D *backgroundTPC;
TH1D *backgroundITS;
- if((dataset==20111 || dataset==20100) && !forSim){//2.76 TeV p+p or Pb+Pb
+ if((dataset==20111 || dataset==20100|| dataset==2011) && !forSim){//2.76 TeV p+p or Pb+Pb
if(dataset==20111){
cout<<"Fixing 2.76 TeV p+p background to be average of 900 GeV and 7 TeV scaling"<<endl;
backgroundTPC = pp276TPCBkgd();