// Funktion für den differentiellen Wirkungsquerschnitt (ausgerechnet bis auf nicht analytisch bestimmbare Parton-Parton-Prozesse) inline double diffCrossSection(double* x,size_t numDim,void* params) { // Theta(x1*x2*s-m_h^2) if (x[0]*x[1]*S_PP*S_PP<M_H*M_H) return 0.0; // LHAPDF aus Parameter abfragen LHAPDF::PDF* pdf = (LHAPDF::PDF*)params; // Ergebnisvariable initialisieren double result = 0.0; // Alle möglichen Parton-Parton-Reaktionen durchgehen und zum Ergebnis summieren for (int i=1;i<7;i++) { result += pdf->xfxQ(i,x[0],M_H)/x[0]*pdf->xfxQ(-i,x[1],M_H)/x[1] /* f_q(x1)*f_qbar(x2) */ * COS2_THETA_W/144./M_PI /* cos^2(theta_W)/(144 PI) */ * (x[0]*x[1]*S_PP*S_PP-M_H*M_H)*(x[0]*x[1]*S_PP*S_PP-M_H*M_H)*(x[0]*x[1]*S_PP*S_PP-M_H*M_H) /* (x1*x2*s-m_h^2)^3 */ / (x[0]*x[1]*S_PP*S_PP)/(x[0]*x[1]*S_PP*S_PP); /* (x1*x2*s)^2 */ result += pdf->xfxQ(-i,x[0],M_H)/x[0]*pdf->xfxQ(i,x[1],M_H)/x[1] /* f_qbar(x1)*f_q(x2) */ * COS2_THETA_W/144./M_PI /* cos^2(theta_W)/(144 PI) */ * (x[0]*x[1]*S_PP*S_PP-M_H*M_H)*(x[0]*x[1]*S_PP*S_PP-M_H*M_H)*(x[0]*x[1]*S_PP*S_PP-M_H*M_H) /* (x1*x2*s-m_h^2)^3 */ / (x[0]*x[1]*S_PP*S_PP)/(x[0]*x[1]*S_PP*S_PP); /* (x1*x2*s)^2 */ } // Ergebnis zurückgeben return result; }
//void acceptGenW(TString input="wellnu_ct10_wp_v2.root", void acceptGenW(TString input="/afs/cern.ch/work/j/jlawhorn/theo-unc-06-10/WmJetsToLNu.root", TString outputDir="idfk/", //TString pdfName="NNPDF30_nlo_nf_5_pdfas", //TString pdfName="CT14nlo", TString pdfName="MMHT2014nlo68cl", Int_t setMin=0, Int_t setMax=0, Int_t proc=2) { TString procName[4]={"wme", "wpe", "wmm", "wpm"}; char output[150]; sprintf(output, "%s%s_%s.root", outputDir.Data(), procName[proc].Data(), pdfName.Data()); cout << "proc: " << procName[proc] << endl; TChain chain("Events"); chain.Add(input); //PDF info Double_t id_1, id_2, x_1, x_2; Double_t xPDF_1, xPDF_2, scalePDF, weight; //Generator level V+l info Double_t genV_id, genL1_id, genL2_id; Double_t genV_pt, genV_eta, genV_phi, genV_m; Double_t genVf_pt, genVf_eta, genVf_phi, genVf_m; Double_t genL1_pt, genL1_eta, genL1_phi, genL1_m; Double_t genL2_pt, genL2_eta, genL2_phi, genL2_m; Double_t genL1f_pt, genL1f_eta, genL1f_phi, genL1f_m; Double_t genL2f_pt, genL2f_eta, genL2f_phi, genL2f_m; chain.SetBranchAddress("id_1", &id_1); chain.SetBranchAddress("id_2", &id_2); chain.SetBranchAddress("x_1", &x_1); chain.SetBranchAddress("x_2", &x_2); chain.SetBranchAddress("xPDF_1", &xPDF_1); chain.SetBranchAddress("xPDF_2", &xPDF_2); chain.SetBranchAddress("scalePDF", &scalePDF); chain.SetBranchAddress("weight", &weight); chain.SetBranchAddress("genV_pt", &genV_pt); chain.SetBranchAddress("genV_eta", &genV_eta); chain.SetBranchAddress("genV_phi", &genV_phi); chain.SetBranchAddress("genV_m", &genV_m); chain.SetBranchAddress("genV_id", &genV_id); chain.SetBranchAddress("genVf_pt", &genVf_pt); chain.SetBranchAddress("genVf_eta", &genVf_eta); chain.SetBranchAddress("genVf_phi", &genVf_phi); chain.SetBranchAddress("genVf_m", &genVf_m); chain.SetBranchAddress("genL1_pt", &genL1_pt); chain.SetBranchAddress("genL1_eta", &genL1_eta); chain.SetBranchAddress("genL1_phi", &genL1_phi); chain.SetBranchAddress("genL1_m", &genL1_m); chain.SetBranchAddress("genL1_id", &genL1_id); chain.SetBranchAddress("genL2_pt", &genL2_pt); chain.SetBranchAddress("genL2_eta", &genL2_eta); chain.SetBranchAddress("genL2_phi", &genL2_phi); chain.SetBranchAddress("genL2_m", &genL2_m); chain.SetBranchAddress("genL2_id", &genL2_id); chain.SetBranchAddress("genL1f_pt", &genL1f_pt); chain.SetBranchAddress("genL1f_eta", &genL1f_eta); chain.SetBranchAddress("genL1f_phi", &genL1f_phi); chain.SetBranchAddress("genL1f_m", &genL1f_m); chain.SetBranchAddress("genL2f_pt", &genL2f_pt); chain.SetBranchAddress("genL2f_eta", &genL2f_eta); chain.SetBranchAddress("genL2f_phi", &genL2f_phi); chain.SetBranchAddress("genL2f_m", &genL2f_m); TFile *outFile = new TFile(output, "recreate"); LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(292200); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(25100); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(13100); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(11000); for (Int_t iPdfSet=setMin; iPdfSet<setMax+1; iPdfSet++) { LHAPDF::PDF* testPdf = LHAPDF::mkPDF(pdfName.Data(),iPdfSet); char histname[100]; sprintf(histname,"dEta_%s_%i",pdfName.Data(),iPdfSet); TH1D* dEta = new TH1D(histname, "", 20, -5, 5); dEta->Sumw2(); sprintf(histname,"dPt_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPt = new TH1D(histname, "", 25, 25, 100); dPt->Sumw2(); sprintf(histname,"dPreB_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPreB = new TH1D(histname, "", 1, 0, 2); dPreB->Sumw2(); sprintf(histname,"dPreE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPreE = new TH1D(histname, "", 1, 0, 2); dPreE->Sumw2(); sprintf(histname,"dPostB_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPostB = new TH1D(histname, "", 1, 0, 2); dPostB->Sumw2(); sprintf(histname,"dPostE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPostE = new TH1D(histname, "", 1, 0, 2); dPostE->Sumw2(); sprintf(histname,"dTot_%s_%i",pdfName.Data(),iPdfSet); TH1D* dTot = new TH1D(histname, "", 1, 0, 2); dTot->Sumw2(); for (Int_t i=0; i<chain.GetEntries(); i++) { chain.GetEntry(i); //cout << genV_id << ", " << genL1_id << ", " << genL2_id << ", " << genL1f_pt << ", " << genL1f_eta << endl; if (!isProc(proc, genV_id, genV_m, genL1_id, genL2_id)) continue; if ((proc==0||proc==2) && genL2f_pt==0 && genL2f_eta==0) continue; if ((proc==1||proc==3) && genL1f_pt==0 && genL1f_eta==0) continue; Int_t fid_1 = ( id_1==0 ? 21 : id_1 ); Int_t fid_2 = ( id_2==0 ? 21 : id_2 ); //cout << genV_id << ", " << genL1f_pt << ", " << genL2f_pt << endl; Double_t newWeight = weight*testPdf->xfxQ(fid_1, x_1, scalePDF)*testPdf->xfxQ(fid_2, x_2, scalePDF)/(nomPdf->xfxQ(fid_1, x_1, scalePDF)*nomPdf->xfxQ(fid_2, x_2, scalePDF)); if (newWeight < 3e-10) continue; dTot->Fill(1.0,newWeight); Bool_t passBar =acceptBarrel(proc, genV_id, genV_m, genL1_id, genL2_id, genL1_pt, genL1_eta, genL2_pt, genL2_eta); Bool_t passBarF=acceptBarrel(proc, genV_id, genV_m, genL1_id, genL2_id, genL1f_pt, genL1f_eta, genL2f_pt, genL2f_eta); Bool_t passEnd =acceptEndcap(proc, genV_id, genV_m, genL1_id, genL2_id, genL1_pt, genL1_eta, genL2_pt, genL2_eta); Bool_t passEndF=acceptEndcap(proc, genV_id, genV_m, genL1_id, genL2_id, genL1f_pt, genL1f_eta, genL2f_pt, genL2f_eta); if (passBar) dPreB->Fill(1.0, newWeight); else if (passEnd) dPreE->Fill(1.0, newWeight); if (passBarF) dPostB->Fill(1.0, newWeight); else if (passEndF) dPostE->Fill(1.0, newWeight); if (passBarF || passEndF) { if (proc==wme || proc==wmm) { dEta->Fill(genL2f_eta, newWeight); dPt->Fill(genL2f_pt, newWeight); } else { dEta->Fill(genL1f_eta, newWeight); dPt->Fill(genL1f_pt, newWeight); } } } Double_t acc=(dPreB->Integral()+dPreE->Integral())/(dTot->Integral()); //cout << dPreB->Integral()/dTot->Integral() << endl; //cout << dPreE->Integral()/dTot->Integral() << endl; cout << "Pre-FSR acceptance: " << acc << " +/- " << sqrt(acc*(1-acc)/dTot->GetEntries()) << endl; acc=(dPostB->Integral()+dPostE->Integral())/(dTot->Integral()); //cout << dPostB->Integral()/dTot->Integral() << endl; //cout << dPostE->Integral()/dTot->Integral() << endl; cout << "Post-FSR acceptance: " << acc << " +/- " << sqrt(acc*(1-acc)/dTot->GetEntries()) << endl; outFile->Write(); } outFile->Close(); }
void acceptGenZ(TString input="/afs/cern.ch/work/j/jlawhorn/theo-unc-06-10/DYJetsToLL.root", //void acceptGenZ(TString input="dyellell_ct10_v2.root", TString outputDir="idfk/", //TString pdfName="NNPDF30_nlo_nf_5_pdfas", //TString pdfName="CT14nlo", TString pdfName="MMHT2014nlo68cl", Int_t setMin=0, Int_t setMax=0, Int_t proc=0) { TString procName[2]={"zee", "zmm"}; char output[150]; sprintf(output, "%s%s_%s.root", outputDir.Data(), procName[proc].Data(), pdfName.Data()); cout << output << endl; TChain chain("Events"); chain.Add(input); //PDF info Double_t id_1, id_2, x_1, x_2; Double_t xPDF_1, xPDF_2, scalePDF, weight; //Generator level V+l info Double_t genV_id, genL1_id, genL2_id; Double_t genV_pt, genV_eta, genV_phi, genV_m; Double_t genVf_pt, genVf_eta, genVf_phi, genVf_m; Double_t genL1_pt, genL1_eta, genL1_phi, genL1_m; Double_t genL2_pt, genL2_eta, genL2_phi, genL2_m; Double_t genL1f_pt, genL1f_eta, genL1f_phi, genL1f_m; Double_t genL2f_pt, genL2f_eta, genL2f_phi, genL2f_m; chain.SetBranchAddress("id_1", &id_1); chain.SetBranchAddress("id_2", &id_2); chain.SetBranchAddress("x_1", &x_1); chain.SetBranchAddress("x_2", &x_2); chain.SetBranchAddress("xPDF_1", &xPDF_1); chain.SetBranchAddress("xPDF_2", &xPDF_2); chain.SetBranchAddress("scalePDF", &scalePDF); chain.SetBranchAddress("weight", &weight); chain.SetBranchAddress("genV_pt", &genV_pt); chain.SetBranchAddress("genV_eta", &genV_eta); chain.SetBranchAddress("genV_phi", &genV_phi); chain.SetBranchAddress("genV_m", &genV_m); chain.SetBranchAddress("genV_id", &genV_id); chain.SetBranchAddress("genVf_pt", &genVf_pt); chain.SetBranchAddress("genVf_eta", &genVf_eta); chain.SetBranchAddress("genVf_phi", &genVf_phi); chain.SetBranchAddress("genVf_m", &genVf_m); chain.SetBranchAddress("genL1_pt", &genL1_pt); chain.SetBranchAddress("genL1_eta", &genL1_eta); chain.SetBranchAddress("genL1_phi", &genL1_phi); chain.SetBranchAddress("genL1_m", &genL1_m); chain.SetBranchAddress("genL1_id", &genL1_id); chain.SetBranchAddress("genL2_pt", &genL2_pt); chain.SetBranchAddress("genL2_eta", &genL2_eta); chain.SetBranchAddress("genL2_phi", &genL2_phi); chain.SetBranchAddress("genL2_m", &genL2_m); chain.SetBranchAddress("genL2_id", &genL2_id); chain.SetBranchAddress("genL1f_pt", &genL1f_pt); chain.SetBranchAddress("genL1f_eta", &genL1f_eta); chain.SetBranchAddress("genL1f_phi", &genL1f_phi); chain.SetBranchAddress("genL1f_m", &genL1f_m); chain.SetBranchAddress("genL2f_pt", &genL2f_pt); chain.SetBranchAddress("genL2f_eta", &genL2f_eta); chain.SetBranchAddress("genL2f_phi", &genL2f_phi); chain.SetBranchAddress("genL2f_m", &genL2f_m); TFile *outFile = new TFile(output, "recreate"); LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(292200); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(25100); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(11000); //LHAPDF::PDF* nomPdf = LHAPDF::mkPDF(13100); for (Int_t iPdfSet=setMin; iPdfSet<setMax+1; iPdfSet++) { LHAPDF::PDF* testPdf = LHAPDF::mkPDF(pdfName.Data(),iPdfSet); char histname[100]; sprintf(histname,"dEta_%s_%i",pdfName.Data(),iPdfSet); TH1D* dEta = new TH1D(histname, "", 20, -5, 5); dEta->Sumw2(); sprintf(histname,"dPt_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPt = new TH1D(histname, "", 25, 25, 100); dPt->Sumw2(); sprintf(histname,"dPreBB_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPreBB = new TH1D(histname, "", 1, 0, 2); dPreBB->Sumw2(); sprintf(histname,"dPreBE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPreBE = new TH1D(histname, "", 1, 0, 2); dPreBE->Sumw2(); sprintf(histname,"dPreEE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPreEE = new TH1D(histname, "", 1, 0, 2); dPreEE->Sumw2(); sprintf(histname,"dPostBB_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPostBB = new TH1D(histname, "", 1, 0, 2); dPostBB->Sumw2(); sprintf(histname,"dPostBE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPostBE = new TH1D(histname, "", 1, 0, 2); dPostBE->Sumw2(); sprintf(histname,"dPostEE_%s_%i",pdfName.Data(),iPdfSet); TH1D* dPostEE = new TH1D(histname, "", 1, 0, 2); dPostEE->Sumw2(); sprintf(histname,"dTot_%s_%i",pdfName.Data(),iPdfSet); TH1D* dTot = new TH1D(histname, "", 1, 0, 2); dTot->Sumw2(); Double_t nentries=0, nsel=0; for (Int_t i=0; i<chain.GetEntries(); i++) { //for (Int_t i=0; i<100; i++) { chain.GetEntry(i); if (!isProc(proc, genV_id, genV_m, genL1_id, genL2_id)) continue; Int_t fid_1 = id_1;//( id_1==0 ? 21 : id_1 ); Int_t fid_2 = id_2;//( id_2==0 ? 21 : id_2 ); Double_t newWeight = weight*testPdf->xfxQ(fid_1, x_1, scalePDF)*testPdf->xfxQ(fid_2, x_2, scalePDF)/(nomPdf->xfxQ(fid_1, x_1, scalePDF)*nomPdf->xfxQ(fid_2, x_2, scalePDF)); if (fabs(nomPdf->xfxQ(fid_1, x_1, scalePDF)) < 1e-8 || fabs(nomPdf->xfxQ(fid_2, x_2, scalePDF)) < 1e-8 ) { cout << "wtf: " << fid_1 << ", " << x_1 << ", " << scalePDF << " => " << nomPdf->xfxQ(fid_1, x_1, scalePDF) << "; "; cout << fid_2 << ", " << x_2 << ", " << scalePDF << " => " << nomPdf->xfxQ(fid_2, x_2, scalePDF) << "; "; cout << weight << ", " << newWeight << endl; continue; } nentries+=newWeight; dTot->Fill(1.0,newWeight); Bool_t passBB =acceptBB(proc, genV_id, genV_m, genL1_id, genL2_id, genL1_pt, genL1_eta, genL2_pt, genL2_eta); Bool_t passBBF=acceptBB(proc, genV_id, genVf_m, genL1_id, genL2_id, genL1f_pt, genL1f_eta, genL2f_pt, genL2f_eta); Bool_t passBE =acceptBE(proc, genV_id, genV_m, genL1_id, genL2_id, genL1_pt, genL1_eta, genL2_pt, genL2_eta); Bool_t passBEF=acceptBE(proc, genV_id, genVf_m, genL1_id, genL2_id, genL1f_pt, genL1f_eta, genL2f_pt, genL2f_eta); Bool_t passEE =acceptEE(proc, genV_id, genV_m, genL1_id, genL2_id, genL1_pt, genL1_eta, genL2_pt, genL2_eta); Bool_t passEEF=acceptEE(proc, genV_id, genVf_m, genL1_id, genL2_id, genL1f_pt, genL1f_eta, genL2f_pt, genL2f_eta); if (passBB) dPreBB->Fill(1.0, newWeight); else if (passBE) dPreBE->Fill(1.0, newWeight); else if (passEE) dPreEE->Fill(1.0, newWeight); if (passBBF) { dPostBB->Fill(1.0, newWeight); } else if (passBEF) { dPostBE->Fill(1.0, newWeight); } else if (passEEF) { dPostEE->Fill(1.0, newWeight); } if (passBBF || passBEF || passEEF) { //if (passBB || passBE || passEE) { dEta->Fill(genVf_eta, newWeight); dPt->Fill(genVf_pt, newWeight); nsel+=newWeight; } } cout << "------------" << endl; Double_t acc=(dPreBB->Integral()+dPreBE->Integral()+dPreEE->Integral())/(dTot->Integral()); cout << "Pre-FSR acceptance: " << dPreBB->Integral() + dPreBE->Integral() + dPreEE->Integral() << " / " << dTot->Integral() << " = " << acc << " +/- " << sqrt(acc*(1-acc)/dTot->GetEntries()) << endl; acc=(dPostBB->Integral()+dPostBE->Integral()+dPostEE->Integral())/(dTot->Integral()); cout << "Post-FSR acceptance: " << dPostBB->Integral()+dPostBE->Integral()+dPostEE->Integral() << " / " << dTot->Integral() << " = " << acc << " +/- " << sqrt(acc*(1-acc)/dTot->GetEntries()) << endl; outFile->Write(); } outFile->Close(); }