// This macro is an example of graphs in log scales with annotations. // // The begin_html presented results end_html // are predictions of invariant cross-section of Direct Photons produced // at RHIC energies, based on the universality of scaling function H(z). // //Authors: Michael Tokarev and Elena Potrebenikova (JINR Dubna) // // These Figures were published in JINR preprint E2-98-64, Dubna, // 1998 and submitted to CPC. // // Note that the way greek symbols, super/subscripts are obtained // illustrate the current limitations of Root in this area. // #include "TCanvas.h" #include "TPad.h" #include "TPaveLabel.h" #include "TLatex.h" #include "TGraph.h" #include "TFrame.h" const Int_t NMAX = 20; Int_t NLOOP; Float_t Z[NMAX], HZ[NMAX], PT[NMAX], INVSIG[NMAX]; void hz_calc(Float_t, Float_t, Float_t, Float_t, Float_t, Float_t); //__________________________________________________________________ void zdemo() { Float_t energ; Float_t dens; Float_t tgrad; Float_t ptmin; Float_t ptmax; Float_t delp; // Create a new canvas. TCanvas *c1 = new TCanvas("zdemo", "Monte Carlo Study of Z scaling",10,40,800,600); c1->Range(0,0,25,18); c1->SetFillColor(40); TPaveLabel *pl = new TPaveLabel(1,16.3,24,17.5,"Z-scaling of \ Direct Photon Productions in pp Collisions at RHIC Energies","br"); pl->SetFillColor(18); pl->SetTextFont(32); pl->SetTextColor(49); pl->Draw(); TLatex *t = new TLatex(); t->SetTextFont(32); t->SetTextColor(1); t->SetTextSize(0.03); t->SetTextAlign(12); t->DrawLatex(3.1,15.5,"M.Tokarev, E.Potrebenikova "); t->DrawLatex(14.,15.5,"JINR preprint E2-98-64, Dubna, 1998 "); TPad *pad1 = new TPad("pad1","This is pad1",0.02,0.02,0.48,0.83,33); TPad *pad2 = new TPad("pad2","This is pad2",0.52,0.02,0.98,0.83,33); pad1->Draw(); pad2->Draw(); // // Cross-section of direct photon production in pp collisions // at 500 GeV vs Pt // energ = 63; dens = 1.766; tgrad = 90.; ptmin = 4.; ptmax = 24.; delp = 2.; hz_calc(energ, dens, tgrad, ptmin, ptmax, delp); pad1->cd(); pad1->Range(-0.255174,-19.25,2.29657,-6.75); pad1->SetLogx(); pad1->SetLogy(); // create a 2-d histogram to define the range pad1->DrawFrame(1,1e-18,110,1e-8); pad1->GetFrame()->SetFillColor(19); t = new TLatex(); t->SetNDC(); t->SetTextFont(62); t->SetTextColor(36); t->SetTextSize(0.08); t->SetTextAlign(12); t->DrawLatex(0.6,0.85,"p - p"); t->SetTextSize(0.05); t->DrawLatex(0.6,0.79,"Direct #gamma"); t->DrawLatex(0.6,0.75,"#theta = 90^{o}"); t->DrawLatex(0.20,0.45,"Ed^{3}#sigma/dq^{3}"); t->DrawLatex(0.18,0.40,"(barn/Gev^{2})"); t->SetTextSize(0.045); t->SetTextColor(kBlue); t->DrawLatex(0.22,0.260,"#sqrt{s} = 63(GeV)"); t->SetTextColor(kRed); t->DrawLatex(0.22,0.205,"#sqrt{s} = 200(GeV)"); t->SetTextColor(6); t->DrawLatex(0.22,0.15,"#sqrt{s} = 500(GeV)"); t->SetTextSize(0.05); t->SetTextColor(1); t->DrawLatex(0.6,0.06,"q_{T} (Gev/c)"); TGraph *gr1 = new TGraph(NLOOP,PT,INVSIG); gr1->SetLineColor(38); gr1->SetMarkerColor(kBlue); gr1->SetMarkerStyle(21); gr1->SetMarkerSize(1.1); gr1->Draw("LP"); // // Cross-section of direct photon production in pp collisions // at 200 GeV vs Pt // energ = 200; dens = 2.25; tgrad = 90.; ptmin = 4.; ptmax = 64.; delp = 6.; hz_calc(energ, dens, tgrad, ptmin, ptmax, delp); TGraph *gr2 = new TGraph(NLOOP,PT,INVSIG); gr2->SetLineColor(38); gr2->SetMarkerColor(kRed); gr2->SetMarkerStyle(29); gr2->SetMarkerSize(1.5); gr2->Draw("LP"); // // Cross-section of direct photon production in pp collisions // at 500 GeV vs Pt // energ = 500; dens = 2.73; tgrad = 90.; ptmin = 4.; ptmax = 104.; delp = 10.; hz_calc(energ, dens, tgrad, ptmin, ptmax, delp); TGraph *gr3 = new TGraph(NLOOP,PT,INVSIG); gr3->SetLineColor(38); gr3->SetMarkerColor(6); gr3->SetMarkerStyle(8); gr3->SetMarkerSize(1.1); gr3->Draw("LP"); Float_t *dum = 0; TGraph *graph = new TGraph(1,dum,dum); graph->SetMarkerColor(kBlue); graph->SetMarkerStyle(21); graph->SetMarkerSize(1.1); graph->SetPoint(0,1.7,1.e-16); graph->Draw("LP"); graph = new TGraph(1,dum,dum); graph->SetMarkerColor(kRed); graph->SetMarkerStyle(29); graph->SetMarkerSize(1.5); graph->SetPoint(0,1.7,2.e-17); graph->Draw("LP"); graph = new TGraph(1,dum,dum); graph->SetMarkerColor(6); graph->SetMarkerStyle(8); graph->SetMarkerSize(1.1); graph->SetPoint(0,1.7,4.e-18); graph->Draw("LP"); pad2->cd(); pad2->Range(-0.43642,-23.75,3.92778,-6.25); pad2->SetLogx(); pad2->SetLogy(); pad2->DrawFrame(1,1e-22,3100,1e-8); pad2->GetFrame()->SetFillColor(19); TGraph *gr = new TGraph(NLOOP,Z,HZ); gr->SetTitle("HZ vs Z"); gr->SetFillColor(19); gr->SetLineColor(9); gr->SetMarkerColor(50); gr->SetMarkerStyle(29); gr->SetMarkerSize(1.5); gr->Draw("LP"); t = new TLatex(); t->SetNDC(); t->SetTextFont(62); t->SetTextColor(36); t->SetTextSize(0.08); t->SetTextAlign(12); t->DrawLatex(0.6,0.85,"p - p"); t->SetTextSize(0.05); t->DrawLatex(0.6,0.79,"Direct #gamma"); t->DrawLatex(0.6,0.75,"#theta = 90^{o}"); t->DrawLatex(0.70,0.55,"H(z)"); t->DrawLatex(0.68,0.50,"(barn)"); t->SetTextSize(0.045); t->SetTextColor(46); t->DrawLatex(0.20,0.30,"#sqrt{s}, GeV"); t->DrawLatex(0.22,0.26,"63"); t->DrawLatex(0.22,0.22,"200"); t->DrawLatex(0.22,0.18,"500"); t->SetTextSize(0.05); t->SetTextColor(1); t->DrawLatex(0.88,0.06,"z"); c1->Modified(); c1->Update(); } void hz_calc(Float_t ENERG, Float_t DENS, Float_t TGRAD, Float_t PTMIN, Float_t PTMAX, Float_t DELP) { Int_t I; Float_t GM1 = 0.00001; Float_t GM2 = 0.00001; Float_t A1 = 1.; Float_t A2 = 1.; Float_t ALX = 2.; Float_t BETA = 1.; Float_t KF1 = 8.E-7; Float_t KF2 = 5.215; Float_t MN = 0.9383; Float_t DEGRAD=0.01745329; Float_t EB1, EB2, PB1, PB2, MB1, MB2, M1, M2; Float_t DNDETA; Float_t P1P2, P1P3, P2P3; Float_t Y1, Y2, S, SMIN, SX1, SX2, SX1X2, DELM; Float_t Y1X1, Y1X2, Y2X1, Y2X2, Y2X1X2, Y1X1X2; Float_t KX1, KX2, ZX1, ZX2; Float_t H1; Float_t PTOT, THET, ETOT, X1, X2; DNDETA= DENS; MB1 = MN*A1; MB2 = MN*A2; EB1 = ENERG/2.*A1; EB2 = ENERG/2.*A2; M1 = GM1; M2 = GM2; THET = TGRAD*DEGRAD; NLOOP = (PTMAX-PTMIN)/DELP; for (I=0; I