#include #include #include #include #include #include #include #include #include #include #include #include constexpr char const *kNTupleFileName = "http://root.cern/files/tutorials/ntpl004_dimuon_v1.root"; using namespace ROOT::VecOps; void ntpl004_dimuon() { // Use all available CPU cores ROOT::EnableImplicitMT(); ROOT::RDataFrame df("Events", kNTupleFileName); // The tutorial is identical to df102_NanoAODDimuonAnalysis except the use of RNTuple. // For simplicity, select only events with exactly two muons and require opposite charge auto df_2mu = df.Filter("nMuon == 2", "Events with exactly two muons"); auto df_os = df_2mu.Filter("Muon_charge[0] != Muon_charge[1]", "Muons with opposite charge"); // Compute invariant mass of the dimuon system auto df_mass = df_os.Define("Dimuon_mass", InvariantMass, {"Muon_pt", "Muon_eta", "Muon_phi", "Muon_mass"}); // Make histogram of dimuon mass spectrum auto h = df_mass.Histo1D({"Dimuon_mass", "Dimuon_mass", 30000, 0.25, 300}, "Dimuon_mass"); // Request cut-flow report auto report = df_mass.Report(); // Produce plot gStyle->SetOptStat(0); gStyle->SetTextFont(42); auto c = new TCanvas("c", "", 800, 700); c->SetLogx(); c->SetLogy(); h->SetTitle(""); h->GetXaxis()->SetTitle("m_{#mu#mu} (GeV)"); h->GetXaxis()->SetTitleSize(0.04); h->GetYaxis()->SetTitle("N_{Events}"); h->GetYaxis()->SetTitleSize(0.04); h->DrawCopy(); TLatex label; label.SetNDC(true); label.DrawLatex(0.175, 0.740, "#eta"); label.DrawLatex(0.205, 0.775, "#rho,#omega"); label.DrawLatex(0.270, 0.740, "#phi"); label.DrawLatex(0.400, 0.800, "J/#psi"); label.DrawLatex(0.415, 0.670, "#psi'"); label.DrawLatex(0.485, 0.700, "Y(1,2,3S)"); label.DrawLatex(0.755, 0.680, "Z"); label.SetTextSize(0.040); label.DrawLatex(0.100, 0.920, "#bf{CMS Open Data}"); label.SetTextSize(0.030); label.DrawLatex(0.630, 0.920, "#sqrt{s} = 8 TeV, L_{int} = 11.6 fb^{-1}"); // Print cut-flow report report->Print(); }