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#include "plot.h"
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#include "SusyScan.h"
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#include "GeneratorMasses.h"
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#include "PlotTools.h"
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#include "TheLimits.h"
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#include "GlobalFunctions.h"
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#include "TRint.h"
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#include "TROOT.h"
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#include "TObjArray.h"
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#include "TStyle.h"
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#include "TChain.h"
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#include "TFile.h"
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#include "TGraph.h"
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#include "TH1.h"
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#include "TH2.h"
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#include "TH2F.h"
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#include "TTree.h"
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#include "TKey.h"
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#include "Riostream.h"
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#include "TCanvas.h"
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#include "TLegend.h"
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#include "TLatex.h"
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#include "TMarker.h"
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#include <string>
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#include <cmath>
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#include <stdio.h>
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int plot(int argc, char** argv)
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{
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//interactive root session
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//TApplication theApp("App", 0, 0);
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if (gROOT->IsBatch()) {
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fprintf(stderr, "%s: cannot run in batch mode\n", argv[0]);
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return 1;
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}
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//Style stuff
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gStyle->SetHistFillColor(0);
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gStyle->SetPalette(1);
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gStyle->SetCanvasColor(0);
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gStyle->SetCanvasBorderMode(0);
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gStyle->SetPadColor(0);
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gStyle->SetPadBorderMode(0);
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gStyle->SetFrameBorderMode(0);
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gStyle->SetTitleFillColor(0);
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gStyle->SetTitleBorderSize(0);
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gStyle->SetTitleX(0.10);
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gStyle->SetTitleY(0.98);
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gStyle->SetTitleW(0.8);
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gStyle->SetTitleH(0.06);
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gStyle->SetErrorX(0);
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gStyle->SetStatColor(0);
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gStyle->SetStatBorderSize(0);
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gStyle->SetStatX(0);
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gStyle->SetStatY(0);
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gStyle->SetStatW(0);
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gStyle->SetStatH(0);
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gStyle->SetTitleFont(22);
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gStyle->SetLabelFont(22,"X");
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gStyle->SetLabelFont(22,"Y");
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gStyle->SetLabelFont(22,"Z");
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gStyle->SetLabelSize(0.03,"X");
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gStyle->SetLabelSize(0.03,"Y");
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gStyle->SetLabelSize(0.03,"Z");
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//gROOT->SetStyle("MyStyle");
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TCanvas * c1 = new TCanvas("c1","c1",600,600);
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c1->SetFillStyle ( 4000 );
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c1->SetLeftMargin ( 0.15 );
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c1->SetRightMargin ( 0.15 );
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c1->SetBottomMargin( 0.10 );
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c1->cd();
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//Get limits and generator masses ---------------------------------------------------
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TheLimits * genpoints = new TheLimits();
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//genpoints->Fill(argc, argv);
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genpoints->Fill("limits_MHT_tb50/filelist.txt");
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TheLimits * genpointsHT = new TheLimits();
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genpointsHT->Fill("limits_HT_tb50/filelist.txt");
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//Replace read limits with specific numbers
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//genpoints->OverwriteLimits("ABCD_MHT");
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genpoints->FillGeneratorMasses("GenScan_tb50.dat");
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genpoints->match();
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genpointsHT->FillGeneratorMasses("GenScan_tb50.dat");
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genpointsHT->match();
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//the plotting ----------------------------------------------------------------------
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//plotting helper functions
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PlotTools<SusyScan> * plotTools = new PlotTools<SusyScan>(genpoints->GetScan());
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PlotTools<SusyScan> * plotToolsHT = new PlotTools<SusyScan>(genpointsHT->GetScan());
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PlotTools<GeneratorMasses> * plotMasses = new PlotTools<GeneratorMasses>(genpoints->GetGeneratorMasses());
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//iso mass lines
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TGraph * gl500 = plotMasses->Line(Mzero, Mhalf, MGluino, 500);
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TGraph * sq500 = plotMasses->Line(Mzero, Mhalf, MSquarkL, 500, 10);
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sq500->SetLineWidth(2); sq500->SetLineColor(7);
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TGraph * chi100 = plotMasses->Line(Mzero, Mhalf, MChi1, 50, 20);
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TGraph * cha200 = plotMasses->Line(Mzero, Mhalf, MCha1, 200, 20);
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cha200->SetLineColor(2);
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//the histograms
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c1->SetLogz(1);
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//h->SetMaximum(27);
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//h->SetMinimum(0.01);
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/**/
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// cross-section in M0 - M1/2
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TH2F*hxsec = new TH2F("xsec",";m_{0} [GeV]; m_{1/2} [GeV]; cross section [pb]",
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40,200,600,26,140,400);
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plotTools->Area(hxsec, Mzero, Mhalf, Xsection);
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hxsec->SetMinimum(0.01);
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//sq500->Draw();
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//gl500->Draw();
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hxsec->Draw("colz");
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c1->SaveAs("results_tb50/Xsection_m0_m12_tb50.pdf");
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std::string wait;
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//std::cin>>wait;
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// Observed Limit in M0 - M1/2
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TH2F*hobslimit = new TH2F("obslimit",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Observed Limit [pb]",
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40,200,600,26,140,400);
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plotTools->Area(hobslimit, Mzero, Mhalf, ObsXsecLimit);
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hobslimit->SetMinimum(0.01);
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hobslimit->Draw("colz");
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c1->SaveAs("results_tb50/ObsLimit_m0_m12_tb50.pdf");
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// Expected Limit in M0 - M1/2
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TH2F*hexplimit = new TH2F("explimit",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Limit [pb]",
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40,200,600,26,140,400);
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plotTools->Area(hexplimit, Mzero, Mhalf, ExpXsecLimit);
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hexplimit->SetMinimum(0.01);
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hexplimit->Draw("colz");
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c1->SaveAs("results_tb50/ExpLimit_m0_m12_tb50.pdf");
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// Signal Acceptance in M0 - M1/2
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TH2F*hsigacc = new TH2F("sigacc",";m_{0} [GeV]; m_{1/2} [GeV]; Signal Acceptance",
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40,200,600,26,140,400);
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plotTools->Area(hsigacc, Mzero, Mhalf, SignalAcceptance);
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hsigacc->SetMinimum(0.01);
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hsigacc->SetMaximum(1.0);
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hsigacc->Draw("colz");
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chi100->Draw();
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cha200->Draw();
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gl500 ->Draw();
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sq500 ->Draw();
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c1->SaveAs("results_tb50/SigAcc_m0_m12_tb50.pdf");
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// Exp. Limit on Number of Signal Events in M0 - M1/2
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c1->SetLogz(0);
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TH2F*hexplimitnsig = new TH2F("explimitnsig",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL exp. limit signal events [# ]",
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40,200,600,26,140,400);
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plotTools->Area(hexplimitnsig, Mzero, Mhalf, ExpNSignLimit);
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hexplimitnsig->SetMinimum(0.0);
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hexplimitnsig->SetMaximum(20);
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hexplimitnsig->Draw("colz");
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c1->SaveAs("results_tb50/ExpLimitOnNSig_m0_m12_tb50.pdf");
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// Obs. Limit on Number of Signal Events in M0 - M1/2
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TH2F*hobslimitnsig = new TH2F("obslimitnsig",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL obs. limit signal events [# ]",
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40,200,600,26,140,400);
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plotTools->Area(hobslimitnsig, Mzero, Mhalf, ObsNSignLimit);
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hobslimitnsig->SetMinimum(0.0);
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hobslimitnsig->SetMaximum(20);
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hobslimitnsig->Draw("colz");
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c1->SaveAs("results_tb50/ObsLimitOnNSig_m0_m12_tb50.pdf");
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c1->SetLogz(0);
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// Expected Exclusion in M0 - M1/2
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TH2F*hexpexcl = new TH2F("expexcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Exclusion",
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40,200,600,26,140,400);
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plotTools->Area(hexpexcl, Mzero, Mhalf, ExpExclCL);
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hexpexcl->Draw("colz");
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c1->SaveAs("results_tb50/ExpExclusion_m0_m12_tb50.pdf");
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// Observed Exclusion in M0 - M1/2
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TH2F*hobsexcl = new TH2F("obsexcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Observed Exclusion",
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40,200,600,26,140,400);
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plotTools->Area(hobsexcl, Mzero, Mhalf, ObsExclCL);
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hobsexcl->Draw("colz");
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c1->SaveAs("results_tb50/ObsExclusion_m0_m12_tb50.pdf");
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// Observed Exclusion in M0 - M1/2
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TH2F*hPLobsexcl = new TH2F("plobsexcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Observed Exclusion",
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40,200,600,26,140,400);
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plotTools->Area(hPLobsexcl, Mzero, Mhalf, PLObsExclusion);
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hPLobsexcl->Draw("colz");
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c1->SaveAs("results_tb50/PL_ObsExclusion_m0_m12_tb50.pdf");
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// TestContours in M0 - M1/2
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TH2F*texcl = new TH2F("texcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Exclusion",
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40,200,600,26,140,400);
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TH2F*texpexcl=(TH2F*)texcl->Clone();
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plotTools->Area(texpexcl, Mzero, Mhalf, MCMCExpExclusion);
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TH2F*tobsexcl=(TH2F*)texcl->Clone();
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plotTools->Area(tobsexcl, Mzero, Mhalf, MCMCObsExclusion);
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std::vector<TGraph*> contours = plotTools->GetContours(texpexcl,3);
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//std::vector<TGraph*> contours = plotTools->GetContours(tobsexcl,3);
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//hPLexpexcl
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//hexcl->Draw("colz");
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//hexpexcl->Draw("colz");
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//hobsexcl->Draw("colz");
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texpexcl->Draw("colz");
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int col=kBlue-10;
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for (std::vector<TGraph*>::iterator cont=contours.begin(); cont!=contours.end(); ++cont){
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if (! *cont) continue;
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double x, y;
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(*cont)->GetPoint(0, x, y);
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(*cont)->SetLineColor(col);
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(*cont)->Draw("l");
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TLatex l; l.SetTextSize(0.04); l.SetTextColor(col++);
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char val[20];
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sprintf(val,"%d",(int)(cont-contours.begin()));
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l.DrawLatex(x,y,val);
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//if (cont-contours.begin()>3) break;
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}
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c1->SaveAs("results_tb50/ExclusionTestContours_m0_m12_tb50.pdf");
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// Exclusion in M0 - M1/2
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TH2F*hexcl = new TH2F("hexcl",";m_{0} [GeV]; m_{1/2} [GeV]; 95% CL Expected Exclusion",
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40,200,600,26,140,400);
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TGraph * gexpexcl = plotTools ->GetContour(hexcl,Mzero,Mhalf,NLOExpExclCL, 3,0, 2,2);
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TGraph * gexpexcl_LO = plotTools ->GetContour(hexcl,Mzero,Mhalf,ExpExclCL, 3,0, 2,4);
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TGraph * gobsexcl = plotTools ->GetContour(hexcl,Mzero,Mhalf,NLOObsExclCL, 3,0, 2,1);
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TGraph * gMCMCexpexcl_LO = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,MCMCExpExclusion,3,0, 3,4);
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TGraph * gMCMCobsexcl_LO = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,MCMCObsExclusion,3,0, 3,1);
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TGraph * gCLsExpExclHT_LO = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,ExpExclCL, 3,0, 1,4);
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TGraph * gCLsExpExclHT = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,NLOExpExclCL, 3,0, 1,2);
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TGraph * gCLsObsExclHT = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,NLOObsExclCL, 3,0, 1,1);
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TGraph * gCLsExpExclHTm1 = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,NLOExpExclCLm1sigma,3,0, 5,2);
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TGraph * gCLsExpExclHTp1 = plotToolsHT ->GetContour(hexcl,Mzero,Mhalf,NLOExpExclCLp1sigma,3,0, 5,2);
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Smooth( gCLsExpExclHT_LO, 33 ); gCLsExpExclHT_LO->SetLineWidth( 3 );
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Smooth( gCLsObsExclHT, 33); gCLsObsExclHT->SetLineWidth( 3 );
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Smooth( gCLsExpExclHT, 33 ); gCLsExpExclHT->SetLineWidth( 3 );
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Smooth( gexpexcl, 33 );
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Smooth( gobsexcl, 33 );
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Smooth( gMCMCexpexcl_LO, 33 );
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Smooth( gCLsExpExclHTm1, 33 );
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Smooth( gCLsExpExclHTp1, 33 );
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TGraph * gCLsExp1Sigma = MakeBand(gCLsExpExclHTp1, gCLsExpExclHTm1);
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hexcl->Draw("colz");
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gCLsExp1Sigma->Draw("f");
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//set old exclusion Limits
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TGraph* LEP_ch = set_lep_ch(50);
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TGraph* LEP_sl = set_lep_sl(50);//slepton curve
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TGraph* TEV_sg_cdf = set_tev_sg_cdf(50);//squark gluino cdf
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TGraph* TEV_sg_d0 = set_tev_sg_d0(50);//squark gluino d0
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//TGraph* TEV_tlp_cdf = set_tev_tlp_cdf(10);//trilepton cdf
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//TGraph* TEV_tlp_d0 = set_tev_tlp_d0(10);//trilepton d0
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TGraph* stau = set_tev_stau(50);//stau
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TGraph* TEV_sn_d0_1 = set_sneutrino_d0_1(50);
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TGraph* TEV_sn_d0_2 = set_sneutrino_d0_2(50);
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TGraphErrors* First = getObserved_NLO_tanBeta50();
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TGraphErrors* Second = getExpected_NLO_tanBeta50();//getLO_jetMultis();
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TGraphErrors* Third = getLO_tanBeta50();
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First->GetXaxis()->SetRangeUser(0,505);
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First->GetYaxis()->SetRangeUser(80,500);
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First->GetXaxis()->SetTitle("m_{0} (GeV)");
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First->GetYaxis()->SetTitle("m_{1/2} (GeV)");
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TSpline3 *sFirst = new TSpline3("sFirst",First);
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sFirst->SetLineColor(kBlue);
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//sFirst->SetLineWidth(3);
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TSpline3 *sSecond = new TSpline3("sSecond",Second);
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sSecond->SetLineColor(kBlue);
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sSecond->SetLineStyle(2);
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//sSecond->SetLineWidth(3);
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TSpline3 *sThird = new TSpline3("sThird",Third);
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sThird->SetLineColor(kBlue);
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sThird->SetLineStyle(4);
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//sThird->SetLineWidth(3);
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TEV_sn_d0_1->Draw("fsame");
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TEV_sn_d0_2->Draw("fsame");
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TEV_sg_d0->Draw("fsame");
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TEV_sg_cdf->Draw("fsame");
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| 286 |
LEP_ch->Draw("fsame");
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LEP_sl->Draw("fsame");
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stau->Draw("fsame");
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sFirst->Draw("same");
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sSecond->Draw("same");
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sThird->Draw("same");
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if (gexpexcl) gexpexcl->Draw("l");
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if (gCLsExpExclHT) gCLsExpExclHT->Draw("l");
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| 294 |
if (gCLsExpExclHT_LO) gCLsExpExclHT_LO->Draw("l");
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| 295 |
if (gMCMCexpexcl_LO) gMCMCexpexcl_LO->Draw("l");
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| 296 |
if (gCLsObsExclHT) gCLsObsExclHT->Draw("l");
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| 297 |
TLatex b; b.SetTextSize(0.02); b.SetTextColor(1);
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| 298 |
//b.DrawLatex( 10,420,"#tilde{#tau} LSP");
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| 299 |
b.DrawLatex(230,145,"LEP2");
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| 300 |
//b.DrawLatex( 22,138,"#tilde{l}^{#pm}");
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| 301 |
//b.DrawLatex(360,110,"LEP2 #tilde{#chi}^{#pm}");
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| 302 |
//b.DrawLatex(100,140,"CDF");
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| 303 |
//b.DrawLatex(230,145,"D0 #tilde{g}, #tilde{q}");
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| 304 |
//b.DrawLatex( 80,180,"D0 #tilde{#nu}");
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| 305 |
TLegend * leg = new TLegend(0.45,0.7,0.85,0.89);
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| 306 |
leg->SetBorderSize(0);leg->SetFillColor(0);
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| 307 |
TGraph * expLeg = (TGraph*)gCLsExpExclHT->Clone();expLeg->SetFillStyle(gCLsExp1Sigma->GetFillStyle());expLeg->SetFillColor(gCLsExp1Sigma->GetFillColor());
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| 308 |
//if (gobsexcl) leg->AddEntry(gobsexcl,"Observed (MHT, CLs, TLimit)","l");
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| 309 |
if (gCLsObsExclHT) leg->AddEntry(gCLsObsExclHT, "NLO Observed (HT, CLs)","l");
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| 310 |
if (gCLsExpExclHT) leg->AddEntry(expLeg , "NLO Expected (HT, CLs)","l");
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| 311 |
if (gCLsExpExclHT_LO) leg->AddEntry(gCLsExpExclHT_LO,"LO Expected (HT, CLs)","l");
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| 312 |
if (gMCMCexpexcl_LO) leg->AddEntry(gMCMCexpexcl_LO, "LO Expected (HT, MCMC, RooStat)","l");
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| 313 |
if (gexpexcl) leg->AddEntry(gexpexcl, "NLO Expected (MHT, CLs)","l");
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| 314 |
if (sSecond) leg->AddEntry(sSecond, "NLO #alpha_{T} Expected");
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| 315 |
if (sFirst) leg->AddEntry(sFirst, "NLO #alpha_{T} Observed");
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| 316 |
if (sThird) leg->AddEntry(sThird, "LO #alpha_{T} Expected");
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| 317 |
leg->Draw();
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| 318 |
gPad->RedrawAxis();
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| 319 |
c1->SaveAs("results_tb50/Exclusion_m0_m12_tb50.pdf");
|
| 320 |
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| 321 |
// Signal Contamination in M0 - M1/2
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| 322 |
c1->SetLogz(0);
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| 323 |
TH2F*hsigcont = new TH2F("sigcont",";m_{0} [GeV]; m_{1/2}; number of signal in bkg yield [events]",
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| 324 |
40,200,600,26,140,400);
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| 325 |
plotToolsHT->Area(hsigcont, Mzero, Mhalf, SignalContamination);
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| 326 |
hsigcont->SetMinimum(0.01);
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| 327 |
hsigcont->SetMaximum(20);
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| 328 |
hsigcont->Draw("colz");
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| 329 |
if (gCLsObsExclHT) gCLsObsExclHT->Draw("l");
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| 330 |
c1->SaveAs("results_tb50/SignalContamination_HT_m0_m12_tb50.pdf");
|
| 331 |
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| 332 |
// Signal Contamination in M0 - M1/2
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| 333 |
c1->SetLogz(0);
|
| 334 |
TH2F*hsigcontMHT = new TH2F("sigcontMHT",";m_{0} [GeV]; m_{1/2}; number of signal in bkg yield [events]",
|
| 335 |
40,200,600,26,140,400);
|
| 336 |
plotTools->Area(hsigcontMHT, Mzero, Mhalf, SignalContamination);
|
| 337 |
hsigcontMHT->SetMinimum(0.01);
|
| 338 |
hsigcontMHT->SetMaximum(20);
|
| 339 |
hsigcontMHT->Draw("colz");
|
| 340 |
if (gobsexcl) gobsexcl->Draw("l");
|
| 341 |
c1->SaveAs("results_tb50/SignalContamination_MHT_m0_m12_tb50.pdf");
|
| 342 |
|
| 343 |
// Signal JEC Uncertainty MHT
|
| 344 |
c1->SetLogz(0);
|
| 345 |
TH2F*hsig_jec_mht = new TH2F("sigjecmht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal JEC uncertainty",
|
| 346 |
40,200,600,26,140,400);
|
| 347 |
plotTools->Area(hsig_jec_mht, Mzero, Mhalf, SignalUncertJEC);
|
| 348 |
hsig_jec_mht->SetMinimum(0.0);
|
| 349 |
hsig_jec_mht->SetMaximum(0.25);
|
| 350 |
hsig_jec_mht->SetContour(10);
|
| 351 |
hsig_jec_mht->Draw("colz");
|
| 352 |
if (gobsexcl) gobsexcl->Draw("l");
|
| 353 |
c1->SaveAs("results_tb50/SigJEC_MHT_m0_m12_tb50.pdf");
|
| 354 |
|
| 355 |
// Signal JEC Uncertainty HT
|
| 356 |
c1->SetLogz(0);
|
| 357 |
TH2F*hsig_jec_ht = new TH2F("sigjecht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal JEC uncertainty",
|
| 358 |
40,200,600,26,140,400);
|
| 359 |
plotTools->Area(hsig_jec_ht, Mzero, Mhalf, SignalUncertJEC);
|
| 360 |
hsig_jec_ht->SetMinimum(0.0);
|
| 361 |
hsig_jec_ht->SetMaximum(0.25);
|
| 362 |
hsig_jec_ht->SetContour(10);
|
| 363 |
hsig_jec_ht->Draw("colz");
|
| 364 |
if (gCLsObsExclHT) gCLsObsExclHT->Draw("l");
|
| 365 |
c1->SaveAs("results_tb50/SigJEC_HT_m0_m12_tb50.pdf");
|
| 366 |
|
| 367 |
|
| 368 |
// Signal MuIso Uncertainty MHT
|
| 369 |
c1->SetLogz(0);
|
| 370 |
TH2F*hsig_MuIso_mht = new TH2F("sigMuIsomht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
|
| 371 |
40,200,600,26,140,400);
|
| 372 |
plotTools->Area(hsig_MuIso_mht, Mzero, Mhalf, SignalUncertMuIso);
|
| 373 |
hsig_MuIso_mht->SetMinimum(0.0);
|
| 374 |
hsig_MuIso_mht->SetMaximum(0.05);
|
| 375 |
hsig_MuIso_mht->SetContour(5);
|
| 376 |
hsig_MuIso_mht->Draw("colz");
|
| 377 |
if (gobsexcl) gobsexcl->Draw("l");
|
| 378 |
c1->SaveAs("results_tb50/SigMuIso_MHT_m0_m12_tb50.pdf");
|
| 379 |
|
| 380 |
// Signal MuIso Uncertainty HT
|
| 381 |
c1->SetLogz(0);
|
| 382 |
TH2F*hsig_MuIso_ht = new TH2F("sigMuIsoht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
|
| 383 |
40,200,600,26,140,400);
|
| 384 |
plotTools->Area(hsig_MuIso_ht, Mzero, Mhalf, SignalUncertMuIso);
|
| 385 |
hsig_MuIso_ht->SetMinimum(0.0);
|
| 386 |
hsig_MuIso_ht->SetMaximum(0.05);
|
| 387 |
hsig_MuIso_ht->SetContour(5);
|
| 388 |
hsig_MuIso_ht->Draw("colz");
|
| 389 |
if (gCLsObsExclHT) gCLsObsExclHT->Draw("l");
|
| 390 |
c1->SaveAs("results_tb50/SigMuIso_HT_m0_m12_tb50.pdf");
|
| 391 |
|
| 392 |
|
| 393 |
// Signal kFactor Uncertainty MHT
|
| 394 |
c1->SetLogz(0);
|
| 395 |
TH2F*hsig_kFactor_mht = new TH2F("sigkFactormht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
|
| 396 |
40,200,600,26,140,400);
|
| 397 |
plotTools->Area(hsig_kFactor_mht, Mzero, Mhalf, SignalUncertKfactor);
|
| 398 |
hsig_kFactor_mht->SetMinimum(0.1);
|
| 399 |
hsig_kFactor_mht->SetMaximum(0.2);
|
| 400 |
hsig_kFactor_mht->SetContour(10);
|
| 401 |
hsig_kFactor_mht->Draw("colz");
|
| 402 |
if (gobsexcl) gobsexcl->Draw("l");
|
| 403 |
c1->SaveAs("results_tb50/SigkFactor_MHT_m0_m12_tb50.pdf");
|
| 404 |
|
| 405 |
// Signal kFactor Uncertainty HT
|
| 406 |
c1->SetLogz(0);
|
| 407 |
TH2F*hsig_kFactor_ht = new TH2F("sigkFactorht",";m_{0} [GeV]; m_{1/2} [GeV]; Signal #mu_{iso} uncertainty",
|
| 408 |
40,200,600,26,140,400);
|
| 409 |
plotTools->Area(hsig_kFactor_ht, Mzero, Mhalf, SignalUncertKfactor);
|
| 410 |
hsig_kFactor_ht->SetMinimum(0.1);
|
| 411 |
hsig_kFactor_ht->SetMaximum(0.2);
|
| 412 |
hsig_kFactor_ht->SetContour(10);
|
| 413 |
hsig_kFactor_ht->Draw("colz");
|
| 414 |
if (gCLsObsExclHT) gCLsObsExclHT->Draw("l");
|
| 415 |
c1->SaveAs("results_tb50/SigkFactor_HT_m0_m12_tb50.pdf");
|
| 416 |
|
| 417 |
|
| 418 |
//-----------------------------------------------------------------------------------
|
| 419 |
c1->SetLogz(1);
|
| 420 |
|
| 421 |
TGraph * mz500 = plotMasses->Line( MSquarkL, MGluino, Mzero, 500, 1);
|
| 422 |
TGraph * mh250 = plotMasses->Line( MSquarkL, MGluino, Mhalf, 250, 1);
|
| 423 |
|
| 424 |
// cross-section in squark - gluino mass
|
| 425 |
TH2F*hxsec_qg = new TH2F("xsec_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; cross section [pb]",
|
| 426 |
40,200,900,30,200,900);
|
| 427 |
plotTools->Area(hxsec_qg, MSquarkL, MGluino, Xsection);
|
| 428 |
hxsec_qg->SetMinimum(0.01);
|
| 429 |
hxsec_qg->Draw("colz");
|
| 430 |
mz500->Draw();
|
| 431 |
mh250->Draw();
|
| 432 |
c1->SaveAs("results_tb50/Xsection_mSql_mGl_tb50.pdf");
|
| 433 |
|
| 434 |
// Observed Limit in squark - gluino mass
|
| 435 |
TH2F*hobslimit_qg = new TH2F("obslimit_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Limit [pb]",
|
| 436 |
40,200,900,30,200,900);
|
| 437 |
plotTools->Area(hobslimit_qg, MSquarkL, MGluino, ObsXsecLimit);
|
| 438 |
hobslimit_qg->SetMinimum(0.01);
|
| 439 |
hobslimit_qg->Draw("colz");
|
| 440 |
c1->SaveAs("results_tb50/ObsLimit_mSql_mGl_tb50.pdf");
|
| 441 |
|
| 442 |
// Expected Limit in squark - gluino mass
|
| 443 |
TH2F*hexplimit_qg = new TH2F("explimit_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Expected Limit [pb]",
|
| 444 |
40,200,900,30,200,900);
|
| 445 |
plotTools->Area(hexplimit_qg, MSquarkL, MGluino, ExpXsecLimit);
|
| 446 |
hexplimit_qg->SetMinimum(0.01);
|
| 447 |
hexplimit_qg->Draw("colz");
|
| 448 |
c1->SaveAs("results_tb50/ExpLimit_mSql_mGl_tb50.pdf");
|
| 449 |
|
| 450 |
// Signal Acceptance in squark - gluino mass
|
| 451 |
TH2F*hsigacc_qg = new TH2F("sigacc_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; Signal Acceptance",
|
| 452 |
40,200,900,30,200,900);
|
| 453 |
plotTools->Area(hsigacc_qg, MSquarkL, MGluino, SignalAcceptance);
|
| 454 |
hsigacc_qg->SetMinimum(0.01);
|
| 455 |
hsigacc_qg->SetMaximum(1.0);
|
| 456 |
hsigacc_qg->Draw("colz");
|
| 457 |
c1->SaveAs("results_tb50/SigAcc_mSql_mGl_tb50.pdf");
|
| 458 |
|
| 459 |
// Exp. Limit on Number of Signal Events in squark - gluino mass
|
| 460 |
c1->SetLogz(0);
|
| 461 |
TH2F*hexplimitnsig_qg = new TH2F("explimitnsig_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL exp. limit signal events [# ]",
|
| 462 |
40,200,900,30,200,900);
|
| 463 |
plotTools->Area(hexplimitnsig_qg, MSquarkL, MGluino, ExpNSignLimit);
|
| 464 |
hexplimitnsig_qg->SetMinimum(0.0);
|
| 465 |
hexplimitnsig_qg->SetMaximum(20);
|
| 466 |
hexplimitnsig_qg->Draw("colz");
|
| 467 |
c1->SaveAs("results_tb50/ExpLimitOnNSig_mSql_mGl_tb50.pdf");
|
| 468 |
|
| 469 |
// Obs. Limit on Number of Signal Events in squark - gluino mass
|
| 470 |
TH2F*hobslimitnsig_qg = new TH2F("obslimitnsig_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL obs. limit signal events [# ]",
|
| 471 |
40,200,900,30,200,900);
|
| 472 |
plotTools->Area(hobslimitnsig_qg, MSquarkL, MGluino, ObsNSignLimit);
|
| 473 |
hobslimitnsig_qg->SetMinimum(0.0);
|
| 474 |
hobslimitnsig_qg->SetMaximum(20);
|
| 475 |
hobslimitnsig_qg->Draw("colz");
|
| 476 |
c1->SaveAs("results_tb50/ObsLimitOnNSig_mSql_mGl_tb50.pdf");
|
| 477 |
|
| 478 |
c1->SetLogz(0);
|
| 479 |
// Expected Exclusion in squark - gluino mass
|
| 480 |
TH2F*hexpexcl_qg = new TH2F("expexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Expected Exclusion",
|
| 481 |
40,200,900,30,200,900);
|
| 482 |
plotTools->Area(hexpexcl_qg, MSquarkL, MGluino, ExpExclCL);
|
| 483 |
hexpexcl_qg->Draw("colz");
|
| 484 |
c1->SaveAs("results_tb50/ExpExclusion_mSql_mGl_tb50.pdf");
|
| 485 |
|
| 486 |
// Observed Exclusion in squark - gluino mass
|
| 487 |
TH2F*hobsexcl_qg = new TH2F("obsexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
|
| 488 |
40,200,900,30,200,900);
|
| 489 |
plotTools->Area(hobsexcl_qg, MSquarkL, MGluino, ObsExclCL);
|
| 490 |
//std::vector<TGraph *> vobsexcl_qg = plotTools->GetContours(hobsexcl_qg);
|
| 491 |
hobsexcl_qg->Draw("colz");
|
| 492 |
//for (std::vector<TGraph *>::iterator g=vobsexcl_qg.begin();g!=vobsexcl_qg.end();++g){
|
| 493 |
// if (! *g) continue;
|
| 494 |
// // (*g)->Draw("l");
|
| 495 |
//}
|
| 496 |
c1->SaveAs("results_tb50/ObsExclusion_mSql_mGl_tb50.pdf");
|
| 497 |
|
| 498 |
// TestContours in M0 - M1/2
|
| 499 |
TH2F*texcl_qg = new TH2F("texcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
|
| 500 |
40,200,900,30,200,900);
|
| 501 |
TH2F*tPLobsexcl_qg=(TH2F*)texcl_qg->Clone();
|
| 502 |
plotTools->Area(tPLobsexcl_qg, MSquarkL, MGluino, PLObsExclusion);
|
| 503 |
TH2F*tPLexpexcl_qg=(TH2F*)texcl_qg->Clone();
|
| 504 |
plotTools->Area(tPLexpexcl_qg, MSquarkL, MGluino, PLExpExclusion);
|
| 505 |
//std::vector<TGraph*> contours_qg = plotTools->GetContours(hexpexcl_qg,3);
|
| 506 |
//std::vector<TGraph*> contours_qg = plotTools->GetContours(hobsexcl_qg,3);
|
| 507 |
std::vector<TGraph*> contours_qg = plotTools->GetContours(tPLobsexcl_qg,3);
|
| 508 |
//std::vector<TGraph*> contours_qg = plotTools->GetContours(tPLexpexcl_qg,3);
|
| 509 |
//hPLexpexcl_qg
|
| 510 |
//hexcl_qg->Draw("colz");
|
| 511 |
//hexpexcl_qg->Draw("colz");
|
| 512 |
//hobsexcl_qg->Draw("colz");
|
| 513 |
tPLobsexcl_qg->Draw("colz");
|
| 514 |
int col_gl=kBlue-10;
|
| 515 |
for (std::vector<TGraph*>::iterator cont=contours_qg.begin(); cont!=contours_qg.end(); ++cont){
|
| 516 |
if (! *cont) continue;
|
| 517 |
double x, y;
|
| 518 |
(*cont)->GetPoint(0, x, y);
|
| 519 |
(*cont)->SetLineColor(col_gl);(*cont)->SetLineWidth(3);
|
| 520 |
(*cont)->Draw("l");
|
| 521 |
TLatex l; l.SetTextSize(0.04); l.SetTextColor(col_gl++);
|
| 522 |
char val[20];
|
| 523 |
sprintf(val,"%d",(int)(cont-contours_qg.begin()));
|
| 524 |
l.DrawLatex(x,y,val);
|
| 525 |
if (cont-contours_qg.begin()>3) break;
|
| 526 |
}
|
| 527 |
c1->SaveAs("results_tb50/ExclusionTestContours_mSql_mGl_tb50.pdf");
|
| 528 |
|
| 529 |
// Observed Exclusion in squark - gluino mass
|
| 530 |
TH2F*hPLobsexcl_qg = new TH2F("plobsexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
|
| 531 |
40,200,900,30,200,900);
|
| 532 |
plotTools->Area(hPLobsexcl_qg, MSquarkL, MGluino, PLObsExclusion);
|
| 533 |
//hPLobsexcl_qg->Draw("colz");
|
| 534 |
//c1->SaveAs("results_tb50/PL_ObsExclusion_mSql_mGl_tb50.pdf");
|
| 535 |
|
| 536 |
|
| 537 |
|
| 538 |
// Exclusion in squark - gluino mass ----------------------------------------
|
| 539 |
TH2F*hexcl_qg = new TH2F("hexcl_qg",";m_{#tilde{q}} [GeV]; m_{#tilde{g}} [GeV]; 95% CL Observed Exclusion",
|
| 540 |
40,200,900,30,200,900);
|
| 541 |
TGraph * gexpexcl_qg = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino, NLOExpExclCL, 3,0, 2,2);
|
| 542 |
TGraph * gexpexcl_qg_LO = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino, ExpExclCL, 3,0, 2,4);
|
| 543 |
TGraph * gobsexcl_qg = plotTools->GetContour(hexcl_qg,MSquarkL,MGluino, NLOObsExclCL, 3,0, 2,1);
|
| 544 |
TGraph * gMCMCexpexcl_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,MCMCExpExclusion,3,0, 3,2);
|
| 545 |
TGraph * gMCMCobsexcl_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,MCMCObsExclusion,3,0, 3,1);
|
| 546 |
TGraph * gCLsExpExclHT_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCL, 3,0, 1,2);
|
| 547 |
TGraph * gCLsExpExclHT_qg_LO = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,ExpExclCL, 3,0, 1,4);
|
| 548 |
TGraph * gCLsObsExclHT_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOObsExclCL, 3,0, 1,1);
|
| 549 |
TGraph * gCLsExpExclHTm1_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCLm1sigma,3,0, 5,2);
|
| 550 |
TGraph * gCLsExpExclHTp1_qg = plotToolsHT->GetContour(hexcl_qg,MSquarkL,MGluino,NLOExpExclCLp1sigma,3,0, 5,2);
|
| 551 |
TGraph * gCLsExp1Sigma_qg = MakeBand(gCLsExpExclHTp1_qg, gCLsExpExclHTm1_qg);
|
| 552 |
hexcl_qg->Draw("");
|
| 553 |
//
|
| 554 |
if (gCLsExp1Sigma_qg) gCLsExp1Sigma_qg->Draw("lf");
|
| 555 |
if (gobsexcl_qg) gobsexcl_qg->Draw("l");
|
| 556 |
if (gCLsObsExclHT_qg) gCLsObsExclHT_qg->Draw("l");
|
| 557 |
if (gexpexcl_qg) gexpexcl_qg->Draw("l");
|
| 558 |
if (gexpexcl_qg_LO) gexpexcl_qg_LO->Draw("l");
|
| 559 |
if (gCLsExpExclHT_qg) gCLsExpExclHT_qg->Draw("l");
|
| 560 |
if (gCLsExpExclHT_qg_LO) gCLsExpExclHT_qg_LO->Draw("l");
|
| 561 |
//
|
| 562 |
TLegend * leg_qg = new TLegend(0.45,0.78,0.85,0.89);
|
| 563 |
leg_qg->SetBorderSize(0);leg_qg->SetFillColor(0);
|
| 564 |
TGraph * expLeg_qg = (TGraph*)gCLsExpExclHT_qg->Clone();expLeg_qg->SetFillStyle(gCLsExp1Sigma_qg->GetFillStyle());expLeg_qg->SetFillColor(gCLsExp1Sigma_qg->GetFillColor());
|
| 565 |
if (gobsexcl_qg) leg_qg->AddEntry(gobsexcl_qg,"NLO Observed (MHT, CLs)","l");
|
| 566 |
if (gexpexcl_qg) leg_qg->AddEntry(gexpexcl_qg,"NLO Expected (MHT, CLs)","l");
|
| 567 |
if (gexpexcl_qg_LO) leg_qg->AddEntry(gexpexcl_qg_LO,"LO Expected (MHT, CLs)","l");
|
| 568 |
if (gCLsObsExclHT_qg) leg_qg->AddEntry(gCLsObsExclHT_qg,"NLO Observed (HT, CLs)","l");
|
| 569 |
if (gCLsExpExclHT_qg) leg_qg->AddEntry(expLeg_qg,"NLO Expected (HT, CLs)","lf");
|
| 570 |
if (gCLsExpExclHT_qg_LO) leg_qg->AddEntry(gCLsExpExclHT_qg_LO,"LO Expected (HT, CLs)","l");
|
| 571 |
//if (gPLobsexcl_qg) leg_qg->AddEntry(gPLobsexcl_qg,"Observed (PL, RooStat)","l");
|
| 572 |
//if (gPLexpexcl_qg) leg_qg->AddEntry(gPLexpexcl_qg,"Expected (PL, RooStat)","l");
|
| 573 |
leg_qg->Draw();
|
| 574 |
c1->SaveAs("results_tb50/Exclusion_mSql_mGl_tb50.pdf");
|
| 575 |
//c1->SaveAs("plot_tb10.pdf");
|
| 576 |
|
| 577 |
|
| 578 |
|
| 579 |
//c1->SaveAs("plot_tb50.pdf");
|
| 580 |
c1->SetLogy(1);
|
| 581 |
c1->SetLogx(1);
|
| 582 |
TH2F*hUncertScan = new TH2F("hUncertScan",";relative signal uncertainty; number of signal events",
|
| 583 |
10,0.1,0.6,10,0.9,200);
|
| 584 |
//hUncertScan->GetXaxis()->SetNdivisions(505, false);
|
| 585 |
//hUncertScan->SetMinimum(1);
|
| 586 |
TGraph * gCLsExpUncert = new TGraph(0);
|
| 587 |
TGraph * gCLsObsUncert = new TGraph(0);
|
| 588 |
TGraph * gPLExpUncert = new TGraph(0);
|
| 589 |
TGraph * gPLObsUncert = new TGraph(0);
|
| 590 |
TGraph * gFCExpUncert = new TGraph(0);
|
| 591 |
TGraph * gFCObsUncert = new TGraph(0);
|
| 592 |
TGraph * gMCMCExpUncert= new TGraph(0);
|
| 593 |
TGraph * gMCMCObsUncert= new TGraph(0);
|
| 594 |
plotTools->Graph(gCLsExpUncert, SignalRelUncertainty, ExpNSignLimit,1);
|
| 595 |
plotTools->Graph(gCLsObsUncert, SignalRelUncertainty, ObsNSignLimit,1);
|
| 596 |
plotTools->Graph(gPLExpUncert, SignalRelUncertainty, PLExpNSignLimit,1);
|
| 597 |
plotTools->Graph(gPLObsUncert, SignalRelUncertainty, PLObsNSignLimit, 1);
|
| 598 |
plotTools->Graph(gFCExpUncert, SignalRelUncertainty, FCExpNSignLimit,1);
|
| 599 |
plotTools->Graph(gFCObsUncert, SignalRelUncertainty, FCObsNSignLimit, 1);
|
| 600 |
plotTools->Graph(gMCMCExpUncert,SignalRelUncertainty, MCMCExpNSignLimit,1);
|
| 601 |
plotTools->Graph(gMCMCObsUncert,SignalRelUncertainty, MCMCObsNSignLimit, 1);
|
| 602 |
gCLsExpUncert->SetLineStyle(8);
|
| 603 |
gPLObsUncert->SetLineColor(2);
|
| 604 |
gPLExpUncert->SetLineColor(2); gPLExpUncert->SetLineStyle(8);
|
| 605 |
gFCObsUncert->SetLineColor(3);
|
| 606 |
gFCExpUncert->SetLineColor(3); gFCExpUncert->SetLineStyle(8);
|
| 607 |
gMCMCObsUncert->SetLineColor(4);
|
| 608 |
gMCMCExpUncert->SetLineColor(4); gMCMCExpUncert->SetLineStyle(8);
|
| 609 |
hUncertScan->Draw("h");
|
| 610 |
gCLsExpUncert->Draw("l");
|
| 611 |
gCLsObsUncert->Draw("l");
|
| 612 |
gPLObsUncert->Draw("l");
|
| 613 |
gPLExpUncert->Draw("l");
|
| 614 |
gFCObsUncert->Draw("l");
|
| 615 |
gFCExpUncert->Draw("l");
|
| 616 |
gMCMCObsUncert->Draw("l");
|
| 617 |
gMCMCExpUncert->Draw("l");
|
| 618 |
TLatex l; l.SetTextSize(0.03); l.SetTextColor(1);
|
| 619 |
l.DrawLatex(0.025,25,"excluded");
|
| 620 |
TMarker m; m.SetMarkerStyle(29); m.SetMarkerColor(2);
|
| 621 |
m.DrawMarker(0.128, 28.5);l.DrawLatex(0.14,28.5,"LM1");
|
| 622 |
m.DrawMarker(0.147, 77.4);l.DrawLatex(0.16,77.4,"LM0");
|
| 623 |
|
| 624 |
TLegend * leg_S = new TLegend(0.5,0.14,0.85,0.38);
|
| 625 |
leg_S->SetBorderSize(0);leg_S->SetFillColor(0);
|
| 626 |
leg_S->SetHeader("95% CL upper limits");
|
| 627 |
leg_S->AddEntry(gCLsExpUncert,"Expected (CLs, TLimit)","l");
|
| 628 |
leg_S->AddEntry(gCLsObsUncert,"Observed (CLs, TLimit)","l");
|
| 629 |
leg_S->AddEntry(gPLExpUncert,"Expected (PL, RooStat)","l");
|
| 630 |
leg_S->AddEntry(gPLObsUncert,"Observed (PL, RooStat)","l");
|
| 631 |
leg_S->AddEntry(gFCObsUncert,"Observed (FC, RooStat)","l");
|
| 632 |
leg_S->AddEntry(gFCExpUncert,"Expected (FC, RooStat)","l");
|
| 633 |
leg_S->AddEntry(gMCMCObsUncert,"Observed (MCMC, RooStat)","l");
|
| 634 |
leg_S->AddEntry(gMCMCExpUncert,"Expected (MCMC, RooStat)","l");
|
| 635 |
leg_S->Draw();
|
| 636 |
c1->SaveAs("results_tb50/UncertaintyScan.pdf");
|
| 637 |
|
| 638 |
//theApp.Run();
|
| 639 |
}
|
| 640 |
|
| 641 |
|
| 642 |
int main(int argc, char** argv)
|
| 643 |
{
|
| 644 |
return plot(argc, argv);
|
| 645 |
}
|
