// Normalization
fNorm = new TH1F("fNorm","fNorm",36,0,36);
- for(Int_t i=1;i<=36;i++) fNorm->SetBinContent(i,0.05); // TAA and pp norm
+ for(Int_t i=1;i<=36;i++) fNorm->SetBinContent(i,0.047); // TAA and pp norm
// Branching ratio
fBR = new TH1F("fBR","fBR",36,0,36);
// Cuts efficiency (from cuts variation)
fCutsEff = new TH1F("fCutsEff","fCutsEff",36,0,36);
- for(Int_t i=1;i<=36;i++) fCutsEff->SetBinContent(i,0.10); // 15%
-
- fCutsEff->SetBinContent(4,0.15);
- //fCutsEff->SetBinContent(4,0.15);
+ for(Int_t i=1; i<=12; i++) fCutsEff->SetBinContent(i,0.10);
+ for(Int_t i=13; i<=36; i++) fCutsEff->SetBinContent(i,0.08);
// PID efficiency (from PID/noPID)
fPIDEff = new TH1F("fPIDEff","fPIDEff",36,0,36);
for(Int_t i=1;i<=36;i++) fPIDEff->SetBinContent(i,0.05); // 5%
- // MC dN/dpt (2/2/2012)
+ // MC dN/dpt (24/7/2012)
fMCPtShape = new TH1F("fMCPtShape","fMCPtShape",36,0,36);
- for(Int_t i=1;i<=36;i++) fMCPtShape->SetBinContent(i,0.);
- for(Int_t iBin=7; iBin<=8; iBin++) fMCPtShape->SetBinContent(iBin,0.01);
+ for(Int_t iBin=1; iBin<=8; iBin++) fMCPtShape->SetBinContent(iBin,0.01);
for(Int_t iBin=9; iBin<=12; iBin++) fMCPtShape->SetBinContent(iBin,0.05);
for(Int_t iBin=13; iBin<=36; iBin++) fMCPtShape->SetBinContent(iBin,0.05);