ReverseXAxis (TGraphAsymmErrors *g, double size) { // Remove the current axis g->GetXaxis()->SetLabelOffset(999); g->GetXaxis()->SetTickLength(0); // Redraw the new axis gPad->Update(); g->GetYaxis()->SetTitle("Event Selection Efficiency"); TGaxis *newaxis = new TGaxis(gPad->GetUxmax(), gPad->GetUymin(), gPad->GetUxmin(), gPad->GetUymin(), g->GetXaxis()->GetXmin(), g->GetXaxis()->GetXmax(), 510,"-"); newaxis->SetLabelOffset(-0.04); newaxis->SetTitle("Centrality"); newaxis->SetTitleFont(42); newaxis->SetTitleSize(size); newaxis->SetLabelSize(size); newaxis->CenterTitle(); newaxis->SetLabelFont(42); newaxis->Draw(); }
void plot_figure(TString fn,TPad *thePad,bool saxis=false,float ymin=1.0e-10,float ymax=1.0e-02,bool with_d=false) { //cout<<"wit"<<with_d<<endl; gStyle->SetOptFit(); gStyle->SetPadTickY(1); //gStyle->SetLogY(); gStyle->SetLineStyleString(11,"40 20"); float xmin=0,xmax=4; thePad->cd(); thePad->SetLogy(); //thePad->SetGrid(); /***************************************************** Colors *****************************************************/ int HRMcol=kRed+2; int RNAcol=kMagenta; int QGScol=kGreen+1; Double_t x,y; /***************************************************** Format the pad *****************************************************/ thePad->SetTopMargin(0.15); TH1F *hr = thePad->DrawFrame(xmin,ymin,xmax,ymax); hr->SetXTitle("Q^{2} (GeV^{2})"); hr->SetYTitle("B"); hr->GetYaxis()->SetTitleOffset(1.5); hr->GetYaxis()->SetTitleSize(.06); hr->GetYaxis()->SetTitleFont(42); hr->GetYaxis()->CenterTitle(); hr->GetXaxis()->SetTitleSize(.06); hr->GetXaxis()->SetTitleFont(42); /***************************************************** Draw legend *****************************************************/ TLegend *dummylegend=new TLegend(); TLegend *legend=new TLegend(0.66,0.64,0.93,0.84); legend->SetMargin(0.2); legend->SetTextFont(72); legend->SetTextSize(0.035); legend->SetFillStyle(0); legend->SetBorderSize(0); legend->Draw(); TLegend *thlegend=new TLegend(0.33,0.64,0.66,0.84); thlegend->SetMargin(0.2); thlegend->SetTextFont(72); thlegend->SetTextSize(0.035); thlegend->SetFillStyle(0); thlegend->SetBorderSize(0); thlegend->Draw(); thePad->SetLeftMargin(0.19); /***************************************************** Draw top axis *****************************************************/ float titlex1=0.47, titley1=0.85,titlex2=0.56,titley2=0.95; if (saxis) { titley1=0.72;titley2=0.82; TGaxis *axispp = new TGaxis(thePad->GetUxmin(),thePad->GetUymax(), thePad->GetUxmax(), thePad->GetUymax(), xmin/0.1973**2, xmax/0.1973**2,510,"-R"); axispp->SetTitle("Q^{2} (fm^{-2})"); axispp->SetLabelFont(42); axispp->SetLabelSize(0.04); axispp->SetTitleFont(42); axispp->SetTitleSize(.055); axispp->Draw(); } /***************************************************** Make Title *****************************************************/ //TPaveLabel *label = new TPaveLabel(titlex1,titley1,titlex2,titley2,"^{3}He(#gamma,pp)n","NDC"); //label->SetTextSize(0.7); //label->SetFillStyle(0); //label->SetTextFont(42); //label->SetBorderSize(0); //label->Draw(); //TPaveLabel *label = new TPaveLabel(titlex1,titley1-0.06,titlex2,titley2-0.06,"90#circc.m.","NDC"); //label->SetTextSize(0.5); //label->SetFillStyle(0); //label->SetTextFont(42); //label->SetBorderSize(0); //label->Draw(); /*-------------------------------------------------------------------------------------- Constants? ---------------------------------------------------------------------------------------*/ Double_t xmd = 1.875613; Double_t xmdsq = xmd*xmd; Double_t q0sq = 1.15; Double_t degr = 0.01745329252; Double_t xhbarc = 0.1973; /*-------------------------------------------------------------------------------------- Plot IMII modelfor B ---------------------------------------------------------------------------------------*/ const Int_t npt = 95; //Double_t x, y; Double_t qfm[npt]; Double_t qsqpt[npt] = { 0.0000, 0.0004, 0.0039, 0.0389, 0.0584, 0.0779, 0.0973, 0.1168, 0.1363, 0.1558, 0.1752, 0.1947, 0.2531, 0.3115, 0.3894, 0.4673, 0.5451, 0.6230, 0.7009, 0.7788, 0.8566, 0.9345, 1.0124, 1.0903, 1.1681, 1.2460, 1.3239, 1.4018, 1.4796, 1.5575, 1.5965, 1.6354, 1.6743, 1.7133, 1.7522, 1.8106, 1.8301, 1.8690, 1.9080, 1.9469, 1.9858, 2.0248, 2.0637, 2.1026, 2.1416, 2.1805, 2.2195, 2.2584, 2.2973, 2.3363, 2.3752, 2.4142, 2.4531, 2.4920, 2.5310, 2.5699, 2.6088, 2.6478, 2.6867, 2.7257, 2.8035, 2.8814, 2.9593, 3.0372, 3.1150, 3.3097, 3.5044, 3.6991, 3.8938, 4.0885, 4.2832, 4.4779, 4.6726, 4.8672, 5.0619, 5.2566, 5.4513, 5.6460, 5.8407, 6.0354, 6.2301, 6.4248, 6.6195, 6.7168, 6.8141, 6.9115, 7.0088, 7.1062, 7.2035, 7.3009, 7.3982, 7.4956, 7.5929, 7.6902, 7.7876}; Double_t atheory[npt] = { 1.0710E-05, 1.0574E-04, 9.3420E-04, 3.5050E-03, 3.4115E-03, 3.0845E-03, 2.6987E-03, 2.3221E-03, 1.9803E-03, 1.6807E-03, 1.4229E-03, 1.2034E-03, 7.2925E-04, 4.4651E-04, 2.3739E-04, 1.2959E-04, 7.2494E-05, 4.1431E-05, 2.4107E-05, 1.4229E-05, 8.4877E-06, 5.0970E-06, 3.0687E-06, 1.8439E-06, 1.0999E-06, 6.4724E-07, 3.7264E-07, 2.0753E-07, 1.0994E-07, 5.3905E-08, 3.6143E-08, 2.3248E-08, 1.4106E-08, 7.8561E-09, 3.8096E-09, 7.1157E-10, 2.6517E-10, 7.6047E-12, 3.8643E-10, 1.1987E-09, 2.2880E-09, 3.5354E-09, 4.8498E-09, 6.1665E-09, 7.4371E-09, 8.6270E-09, 9.7149E-09, 1.0688E-08, 1.1537E-08, 1.2263E-08, 1.2867E-08, 1.3352E-08, 1.3726E-08, 1.3996E-08, 1.4171E-08, 1.4259E-08, 1.4270E-08, 1.4209E-08, 1.4089E-08, 1.3914E-08, 1.3434E-08, 1.2822E-08, 1.2120E-08, 1.1364E-08, 1.0584E-08, 8.6526E-09, 6.8980E-09, 5.4000E-09, 4.1725E-09, 3.1908E-09, 2.4208E-09, 1.8250E-09, 1.3673E-09, 1.0200E-09, 7.5739E-10, 5.5948E-10, 4.1182E-10, 3.0194E-10, 2.2009E-10, 1.5958E-10, 1.1516E-10, 8.2658E-11, 5.8806E-11, 4.9418E-11, 4.1436E-11, 3.4661E-11, 2.8921E-11, 2.4066E-11, 1.9968E-11, 1.6516E-11, 1.3608E-11, 1.1156E-11, 9.0935E-12, 7.3668E-12, 5.9294E-12}; //TGraph* gQGS=new TGraph("log170_89.dat","%lg %lg"); gQGS = new TGraph(npt,qsqpt,atheory); gQGS->SetLineColor(kMagenta); gQGS->SetMarkerStyle(20); gQGS->SetMarkerSize(1.3); gQGS->SetLineStyle(11); gQGS->SetLineWidth(2); //TPaveLabel * Label = new TPaveLabel(0.74,0.24,0.84,0.30,"IMII","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(kMagenta); //Label->SetBorderSize(0); //Label->Draw(); gQGS->Draw("l"); thlegend->AddEntry(gQGS,"IMII","L"); /*-------------------------------------------------------------------------------------- Plot IMII+ME modelfor B ---------------------------------------------------------------------------------------*/ Double_t atheoryme[npt] = { 1.0806E-05, 1.0669E-04, 9.4299E-04, 3.5533E-03, 3.4668E-03, 3.1422E-03, 2.7561E-03, 2.3777E-03, 2.0331E-03, 1.7302E-03, 1.4689E-03, 1.2459E-03, 7.6183E-04, 4.7094E-04, 2.5382E-04, 1.4061E-04, 7.9917E-05, 4.6454E-05, 2.7523E-05, 1.6562E-05, 1.0086E-05, 6.1936E-06, 3.8206E-06, 2.3582E-06, 1.4498E-06, 8.8327E-07, 5.2973E-07, 3.1019E-07, 1.7528E-07, 9.3887E-08, 6.6801E-08, 4.6325E-08, 3.1059E-08, 1.9921E-08, 1.1991E-08, 4.6073E-09, 3.0706E-09, 1.0502E-09, 1.3882E-10, 4.4654E-11, 5.3635E-10, 1.4329E-09, 2.5922E-09, 3.9043E-09, 5.2841E-09, 6.6632E-09, 8.0019E-09, 9.2634E-09, 1.0425E-08, 1.1476E-08, 1.2409E-08, 1.3215E-08, 1.3893E-08, 1.4448E-08, 1.4882E-08, 1.5208E-08, 1.5432E-08, 1.5567E-08, 1.5619E-08, 1.5596E-08, 1.5350E-08, 1.4883E-08, 1.4254E-08, 1.3528E-08, 1.2744E-08, 1.0662E-08, 8.6328E-09, 6.8749E-09, 5.3894E-09, 4.1719E-09, 3.2238E-09, 2.4857E-09, 1.9002E-09, 1.4523E-09, 1.1197E-09, 8.7045E-10, 6.7932E-10, 5.3066E-10, 4.1792E-10, 3.3449E-10, 2.7250E-10, 2.2493E-10, 1.8672E-10, 1.7020E-10, 1.5532E-10, 1.4219E-10, 1.3070E-10, 1.2068E-10, 1.1198E-10, 1.0447E-10, 9.8023E-11, 9.2442E-11, 8.7575E-11, 8.3244E-11, 7.9331E-11}; TGraph* gRNA=new TGraph(npt,qsqpt,atheoryme); gRNA->SetLineColor(kRed); gRNA->SetMarkerStyle(1); gRNA->SetMarkerSize(1.3); gRNA->SetLineStyle(11); gRNA->SetLineWidth(3); //TPaveLabel * Label = new TPaveLabel(0.72,0.34,0.89,0.40,"IM+E II","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(kRed); //Label->SetBorderSize(0); //Label->Draw(); gRNA->Draw("l"); thlegend->AddEntry(gRNA,"IM+E II","L"); /*-------------------------------------------------------------------------------------- Dan Phillips no rpg(f/g=0) ---------------------------------------------------------------------------------------*/ const Int_t nph = 66; Double_t qph[nph] = { 0.0, 0.2, 0.5, 0.8, 1.0, 1.5, 2.0, 2.5, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0, 11.0, 12.0, 13.0, 14.0, 15.0, 16.0, 17.0, 18.0, 19.0, 20.0, 21.0, 22.0, 23.0, 24.0, 25.0, 26.0, 27.0, 28.0, 29.0, 30.0, 31.0, 32.0, 33.0, 34.0, 35.0, 36.0, 37.0, 38.0, 39.0, 40.0, 41.0, 42.0, 43.0, 44.0, 45.0, 47.5, 50.0, 52.5, 55.0, 57.5, 60.0, 62.5, 65.0, 70.0, 75.0, 80.0, 85.0, 90.0, 95.0, 100.0}; for (Int_t i=0;i<nph;i++) {qph[i] = qph[i]*xhbarc**2;} Double_t tphrpg0[nph] = { 1.0947E-04, 1.9851E-03, 2.9335E-03, 3.3468E-03, 3.4916E-03, 3.4072E-03, 3.1031E-03, 2.7207E-03, 2.3330E-03, 1.6663E-03, 1.1822E-03, 8.4372E-04, 6.0546E-04, 4.3536E-04, 3.1518E-04, 2.3030E-04, 1.6981E-04, 1.2638E-04, 9.4826E-05, 7.1682E-05, 5.4533E-05, 4.1635E-05, 3.1895E-05, 2.4516E-05, 1.8919E-05, 1.4661E-05, 1.1401E-05, 8.8907E-06, 6.9517E-06, 5.4487E-06, 4.2756E-06, 3.3572E-06, 2.6366E-06, 2.0698E-06, 1.6242E-06, 1.2738E-06, 9.9798E-07, 7.9339E-07, 6.2007E-07, 4.8291E-07, 3.7446E-07, 2.8884E-07, 2.2138E-07, 1.6846E-07, 1.2710E-07, 9.4863E-08, 6.9878E-08, 5.0644E-08, 3.5914E-08, 2.4760E-08, 1.6446E-08, 7.0652E-09, 1.2173E-09, 7.6159E-12, 9.6591E-10, 2.6954E-09, 4.5038E-09, 6.0939E-09, 7.3450E-09, 6.3859E-09, 6.7640E-09, 6.3279E-09, 5.5286E-09, 4.5850E-09, 3.6182E-09, 2.7204E-09}; TGraph* gph=new TGraph(nph,qph,tphrpg0); gph->SetLineColor(9); gph->SetMarkerStyle(1); gph->SetMarkerSize(1.3); gph->SetLineStyle(1); gph->SetLineWidth(3); //TPaveLabel * Label = new TPaveLabel(0.545,0.16,0.755,0.22,"#rho#pi#gamma f/g=0","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(9); //Label->SetBorderSize(0); //Label->Draw(); gph->Draw("l"); thlegend->AddEntry(gph,"#rho#pi#gamma f/g=0","L"); Double_t tphrpg3[nph] = {1.0907E-04, 1.9766E-03, 2.9192E-03, 3.3286E-03, 3.4707E-03, 3.3824E-03, 3.0769E-03, 2.6944E-03, 2.3073E-03, 1.6423E-03, 1.1612E-03, 8.2554E-04, 5.8989E-04, 4.2211E-04, 3.0392E-04, 2.2073E-04, 1.6165E-04, 1.1941E-04, 8.8865E-05, 6.6570E-05, 5.0141E-05, 3.7859E-05, 2.8647E-05, 2.1720E-05, 1.6508E-05, 1.2580E-05, 9.6042E-06, 7.3376E-06, 5.6085E-06, 4.2865E-06, 3.2703E-06, 2.4882E-06, 1.8860E-06, 1.4224E-06, 1.0665E-06, 7.9418E-07, 5.8638E-07, 4.3319E-07, 3.1260E-07, 2.2158E-07, 1.5352E-07, 1.0325E-07, 6.6740E-08, 4.0856E-08, 2.3101E-08, 1.1490E-08, 4.5140E-09, 9.8979E-10, 3.1737E-13, 8.5748E-10, 3.0274E-09, 9.8315E-09, 1.9608E-08, 2.8845E-08, 3.6378E-08, 4.1832E-08, 4.5388E-08, 4.7378E-08, 4.8091E-08, 4.4323E-08, 4.0773E-08, 3.5870E-08, 3.0742E-08, 2.5819E-08, 2.1278E-08, 1.7241E-08}; //TGraph* gph3=new TGraph(nph,qph,tphrpg3); //gph3->SetLineColor(39); //gph3->SetMarkerStyle(1); //gph3->SetMarkerSize(1.3); //gph3->SetLineStyle(2); //gph3->SetLineWidth(2); //TPaveLabel * Label = new TPaveLabel(0.60,0.49,0.82,0.55,"Propagator f/g=3","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(39); //Label->SetBorderSize(0); //Label->Draw(); //gph3->Draw("l"); Double_t tphrpg6[nph] = {1.0866E-04, 1.9679E-03, 2.9046E-03, 3.3099E-03, 3.4491E-03, 3.3569E-03, 3.0500E-03, 2.6674E-03, 2.2810E-03, 1.6177E-03, 1.1396E-03, 8.0697E-04, 5.7402E-04, 4.0863E-04, 2.9249E-04, 2.1104E-04, 1.5343E-04, 1.1242E-04, 8.2908E-05, 6.1486E-05, 4.5796E-05, 3.4145E-05, 2.5473E-05, 1.9008E-05, 1.4190E-05, 1.0598E-05, 7.9092E-06, 5.8892E-06, 4.3719E-06, 3.2319E-06, 2.3729E-06, 1.7267E-06, 1.2421E-06, 8.8052E-07, 6.1299E-07, 4.1706E-07, 2.7536E-07, 1.7461E-07, 1.0443E-07, 5.7152E-08, 2.7017E-08, 9.6080E-09, 1.5284E-09, 1.7233E-10, 3.5226E-09, 1.0061E-08, 1.8644E-08, 2.8417E-08, 3.8799E-08, 4.9346E-08, 5.9730E-08, 8.3215E-08, 1.0290E-07, 1.1730E-07, 1.2653E-07, 1.3121E-07, 1.3238E-07, 1.3099E-07, 1.2769E-07, 1.1937E-07, 1.0601E-07, 9.1747E-08, 7.8220E-08, 6.5922E-08, 5.4966E-08, 4.5409E-08}; TGraph* gph6=new TGraph(nph,qph,tphrpg6); gph6->SetLineColor(49); gph6->SetMarkerStyle(1); gph6->SetMarkerSize(1.3); gph6->SetLineStyle(1); gph6->SetLineWidth(2); //TPaveLabel * Label = new TPaveLabel(0.23,0.16,0.45,0.22,"#rho#pi#gamma f/g=6.1","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(49); //Label->SetBorderSize(0); //Label->Draw(); gph6->Draw("l"); thlegend->AddEntry(gph6,"#rho#pi#gamma f/g=6.1","L"); /* sanity checks plots11dsdtSet(100,0.040,0.020,0.05,0.000,0.140,kBlack,legend,"E03-101 140 MeV Bins Pn< 100 Mev/c 80 mr X 40 mr"); */ /* PRL */ //plotSet(kBlue,legend,"T_{20}"); //plotSet(kBlue,legend,""); plotSet(kBlue,legend,""); //plots11dsdtSet(kBlue,legend,""); /***************************************************** Add the rest of the legend enteries *****************************************************/ //if(!with_d){ //legend->AddEntry(gQGS,"QGS","l"); //legend->AddEntry(gRNA,"RNA","l"); //legend->AddEntry(gHRM,"HRM","F"); //}; gStyle->SetPaperSize(20,26); //default //TPaveLabel *label = new TPaveLabel(0.5,0.4,0.85,0.5,"Preliminary","NDC"); //label->SetTextColor(kBlue); //label->Draw(); //cout<<with_d<<endl; c->SaveAs(fn+".pdf"); c->SaveAs(fn+".eps"); c->SaveAs(fn+".png"); }
void plot_figure(TString fn,TPad *thePad,bool saxis=false,float ymin=-2.0,float ymax=1.0,bool with_d=false) { //cout<<"wit"<<with_d<<endl; gStyle->SetOptFit(); gStyle->SetPadTickY(1); gStyle->SetLineStyleString(11,"40 20"); float xmin=0,xmax=2; thePad->cd(); //thePad->SetGrid(); /***************************************************** Colors *****************************************************/ int HRMcol=kRed+2; int RNAcol=kMagenta; int QGScol=kGreen+1; float kb2b=1000; Double_t x,y; /***************************************************** Format the pad *****************************************************/ thePad->SetTopMargin(0.15); TH1F *hr = thePad->DrawFrame(xmin,ymin,xmax,ymax); hr->SetXTitle("Q (GeV)"); hr->SetYTitle("t_{20}"); /*hr->GetYaxis()->SetTitleOffset(1.5); hr->GetYaxis()->SetTitleSize(.06); hr->GetYaxis()->SetTitleFont(42); hr->GetYaxis()->CenterTitle(); hr->GetXaxis()->SetTitleSize(.06); hr->GetXaxis()->SetTitleFont(42); *//***************************************************** Draw legend *****************************************************/ TLegend *dummylegend=new TLegend(); TLegend *legend=new TLegend(0.59,0.17,0.94,0.55); legend->SetMargin(0.2); legend->SetTextFont(72); legend->SetTextSize(0.035); legend->SetFillStyle(0); legend->SetBorderSize(0); legend->Draw(); TLegend *thlegend=new TLegend(0.23,0.64,0.57,0.84); thlegend->SetMargin(0.2); thlegend->SetTextFont(72); thlegend->SetTextSize(0.035); thlegend->SetFillStyle(0); thlegend->SetBorderSize(0); thlegend->Draw(); thePad->SetLeftMargin(0.19); /***************************************************** Draw top axis *****************************************************/ float titlex1=0.47, titley1=0.85,titlex2=0.56,titley2=0.95; if (saxis) { titley1=0.72;titley2=0.82; TGaxis *axispp = new TGaxis(thePad->GetUxmin(),thePad->GetUymax()*1, thePad->GetUxmax(), thePad->GetUymax()*1, xmin*0.1973, xmax*0.1973,510,"-R"); axispp->SetTitle("Q (GeV)"); axispp->SetLabelFont(42); axispp->SetLabelSize(0.04); axispp->SetTitleFont(42); axispp->SetTitleSize(.055); axispp->Draw(); } /***************************************************** Make Title *****************************************************/ //TPaveLabel *label = new TPaveLabel(titlex1,titley1,titlex2,titley2,"^{3}He(#gamma,pp)n","NDC"); //label->SetTextSize(0.7); //label->SetFillStyle(0); //label->SetTextFont(42); //label->SetBorderSize(0); //label->Draw(); //TPaveLabel *label = new TPaveLabel(titlex1,titley1-0.06,titlex2,titley2-0.06,"90#circc.m.","NDC"); //label->SetTextSize(0.5); //label->SetFillStyle(0); //label->SetTextFont(42); //label->SetBorderSize(0); //label->Draw(); /*-------------------------------------------------------------------------------------- Constants? ---------------------------------------------------------------------------------------*/ Double_t xmd = 1.875613; Double_t xmdsq = xmd*xmd; Double_t q0sq = 1.15; Double_t degr = 0.01745329252; Double_t xhbarc = 0.1973; /*-------------------------------------------------------------------------------------- Plot IMII modelfor t20 ---------------------------------------------------------------------------------------*/ const Int_t npt = 94; //Double_t x, y; Double_t qfm[npt]; Double_t qsqpt[npt] = {0.0003893797, 0.003893797, 0.03893797, 0.05840695, 0.07787593, 0.09734491, 0.1168139, 0.1362829, 0.1557519, 0.1752208, 0.1946898, 0.2530968, 0.3115037, 0.3893797, 0.4672556, 0.5451315, 0.6230075, 0.7008834, 0.7787593, 0.8566352, 0.9345112, 1.012387, 1.090263, 1.168139, 1.246015, 1.323891, 1.401767, 1.479643, 1.557519, 1.596457, 1.635395, 1.674333, 1.71327, 1.752208, 1.810615, 1.830084, 1.869022, 1.90796, 1.946898, 1.985836, 2.024774, 2.063712, 2.10265, 2.141588, 2.180526, 2.219464, 2.258402, 2.29734, 2.336278, 2.375216, 2.414154, 2.453092, 2.49203, 2.530968, 2.569906, 2.608844, 2.647782, 2.68672, 2.725658, 2.803534, 2.881409, 2.959285, 3.037161, 3.115037, 3.309727, 3.504417, 3.699107, 3.893797, 4.088486, 4.283176, 4.477866, 4.672556, 4.867246, 5.061936, 5.256625, 5.451315, 5.646005, 5.840695, 6.035385, 6.230075, 6.424764, 6.619454, 6.716799, 6.814144, 6.911489, 7.008834, 7.106179, 7.203524, 7.300869, 7.398214, 7.495558, 7.592903, 7.690248, 7.787593}; Double_t t20theory[npt] = {-0.001309568, -0.0131055, -0.1318868, -0.1984704, -0.2654408, -0.3327329, -0.4002368, -0.4677915, -0.5351828, -0.6021447, -0.668362, -0.8587877, -1.027779, -1.198694, -1.286326, -1.282388, -1.197382, -1.054978, -0.8820486, -0.7009335, -0.5265257, -0.3668914, -0.2252485, -0.1019077, 0.004321276, 0.09524616, 0.1728195, 0.238883, 0.2950801, 0.3199333, 0.3428342, 0.3639258, 0.3833423, 0.4012027, 0.4253075, 0.432676, 0.4464807, 0.4591073, 0.4706305, 0.4811208, 0.4906344, 0.4992296, 0.506956, 0.5138575, 0.5199757, 0.5253475, 0.5300049, 0.5339787, 0.5372949, 0.539977, 0.5420477, 0.5435232, 0.5444235, 0.5447623, 0.5445543, 0.5438103, 0.5425456, 0.540766, 0.5384844, 0.5324458, 0.5245013, 0.514713, 0.5031468, 0.4898722, 0.4497016, 0.4006593, 0.3444063, 0.2827923, 0.2178549, 0.1514989, 0.08547981, 0.02124835, -0.04018853, -0.09806195, -0.1520174, -0.2019219, -0.2477681, -0.2898, -0.3282607, -0.3633281, -0.3951718, -0.4241511, -0.4375907, -0.4502916, -0.4622216, -0.473322, -0.4835232, -0.4927239, -0.500801, -0.5076282, -0.513053, -0.516797, -0.5184837, -0.5176145}; //FILE *fp = fopen("im2.dat","r"); for (Int_t i=0;i<npt;i++) { // Int_t ncols = fscanf(fp,"%f, %f",&x, &y); // qsqpt[i] = x; // t20theory[i] = y; qfm[i] = qsqpt[i]**(0.5)/xhbarc; // printf(" line %d read: %f %f \n",i,qsqpt[i],t20theory[i]); } //fclose(fp); //TGraph* gQGS=new TGraph("log170_89.dat","%lg %lg"); gQGS = new TGraph(npt,qsqpt,t20theory); gQGS->SetLineColor(kMagenta); gQGS->SetMarkerStyle(20); gQGS->SetMarkerSize(1.3); gQGS->SetLineStyle(11); gQGS->SetLineWidth(2); gQGS->Draw("l"); thlegend->AddEntry(gQGS,"IMII","L"); /*-------------------------------------------------------------------------------------- Plot IMII+ME modelfor t20 ---------------------------------------------------------------------------------------*/ Double_t t20theoryme[npt] = {-0.001325945, -0.01328168, -0.1349228, -0.2041014, -0.2743705, -0.3456319, -0.4177289, -0.4904376, -0.5634585, -0.6364107, -0.7088243, -0.9168859, -1.095754, -1.251422, -1.277469, -1.170903, -0.9677308, -0.7200701, -0.4713423, -0.2466468, -0.05555869, 0.101535, 0.2283672, 0.3298602, 0.4107891, 0.4752683, 0.5266488, 0.567598, 0.6002075, 0.6139116, 0.6261154, 0.6369641, 0.6465931, 0.6551208, 0.6660647, 0.6692667, 0.6750632, 0.6801088, 0.6844693, 0.6882072, 0.6913724, 0.694014, 0.6961743, 0.6978924, 0.6992062, 0.7001432, 0.7007343, 0.701005, 0.7009771, 0.7006715, 0.7001097, 0.6993112, 0.6982906, 0.6970643, 0.6956426, 0.6940377, 0.6922587, 0.6903158, 0.6882191, 0.6836015, 0.6784688, 0.6728624, 0.6668122, 0.6603509, 0.6425963, 0.622676, 0.6008623, 0.5773537, 0.5521636, 0.5259722, 0.4991099, 0.4706432, 0.4410795, 0.4127616, 0.3872456, 0.3640124, 0.3422358, 0.3246932, 0.3143134, 0.3116054, 0.3142227, 0.3184956, 0.3200235, 0.3212056, 0.3227668, 0.3250734, 0.3281051, 0.3321319, 0.3372873, 0.3437867, 0.351448, 0.3600231, 0.3689893, 0.3779735}; TGraph* gRNA=new TGraph(npt,qsqpt,t20theoryme); gRNA->SetLineColor(kRed); gRNA->SetMarkerStyle(1); gRNA->SetMarkerSize(1.3); gRNA->SetLineStyle(11); gRNA->SetLineWidth(3); gRNA->Draw("l"); thlegend->AddEntry(gRNA,"IM+E II","L"); /*-------------------------------------------------------------------------------------- Dan Phillips no rpg(f/g=0) ---------------------------------------------------------------------------------------*/ const Int_t nph = 66; Double_t qph[nph] = { 0.01, 0.25, 0.5, 0.75, 1.0, 1.5, 2.0, 2.5, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0, 11.0, 12.0, 13.0, 14.0, 15.0, 16.0, 17.0, 18.0, 19.0, 20.0, 21.0, 22.0, 23.0, 24.0, 25.0, 26.0, 27.0, 28.0, 29.0, 30.0, 31.0, 32.0, 33.0, 34.0, 35.0, 36.0, 37.0, 38.0, 39.0, 40.0, 41.0, 42.0, 43.0, 44.0, 45.0, 47.5, 50.0, 52.5, 55.0, 57.5, 60.0, 62.5, 65.0, 70.0, 75.0, 80.0, 85.0, 90.0, 95.0, 100.0}; for (Int_t i=0;i<nph;i++) {qph[i] = qph[i]*xhbarc**2;} Double_t tphrpg0[nph] = {-0.00139028, -0.0347797, -0.0705278, -0.106823, -0.143214, -0.215941, -0.28903, -0.36176, -0.437352, -0.594782, -0.753442, -0.905365, -1.04209, -1.14824, -1.2301, -1.27076, -1.26585, -1.21681, -1.13043, -1.01648, -0.885684, -0.7701, -0.630809, -0.495011, -0.366781, -0.248492, -0.141153, -0.0449377, 0.0407569, 0.116675, 0.183835, 0.230211, 0.284553, 0.332797, 0.375647, 0.41358, 0.447136, 0.476061, 0.502346, 0.525668, 0.546396, 0.561598, 0.57851, 0.593626, 0.607141, 0.619222, 0.630017, 0.638943, 0.647659, 0.655433, 0.662379, 0.675447, 0.686163, 0.693653, 0.698255, 0.70103, 0.701985, 0.701414, 0.699577, 0.696913, 0.68897, 0.68092, 0.673572, 0.668027, 0.665207, 0.664439}; TGraph* gph=new TGraph(nph,qph,tphrpg0); gph->SetLineColor(9); gph->SetMarkerStyle(1); gph->SetMarkerSize(1.3); gph->SetLineStyle(1); gph->SetLineWidth(3); gph->Draw("l"); thlegend->AddEntry(gph,"#rho#pi#gamma f/g=0","L"); Double_t tphrpg3[nph] = {-0.00139212, -0.0348353, -0.0706589, -0.10705, -0.143559, -0.216597, -0.290087, -0.363321, -0.439532, -0.598654, -0.759312, -0.913351, -1.0519, -1.15918, -1.24066, -1.27901, -1.2698, -1.21493, -1.12197, -1.00156, -0.865071, -0.744981, -0.60214, -0.464095, -0.334789, -0.216384, -0.109662, -0.0145868, 0.069612, 0.143819, 0.20915, 0.254731, 0.307099, 0.353368, 0.394259, 0.43028, 0.461982, 0.489554, 0.51413, 0.535803, 0.554941, 0.568991, 0.584356, 0.59797, 0.610026, 0.620686, 0.630093, 0.63772, 0.645084, 0.651525, 0.657156, 0.666024, 0.673624, 0.678127, 0.679481, 0.67949, 0.677837, 0.674823, 0.670722, 0.662356, 0.650039, 0.638996, 0.628928, 0.620671, 0.614933, 0.610454}; //TGraph* gph3=new TGraph(nph,qph,tphrpg3); //gph3->SetLineColor(39); //gph3->SetMarkerStyle(1); //gph3->SetMarkerSize(1.3); //gph3->SetLineStyle(2); //gph3->SetLineWidth(2); //TPaveLabel * Label = new TPaveLabel(0.20,0.66,0.48,0.71,"Propagator f/g=3","NDC"); //Label->SetTextSize(0.6); //Label->SetLineColor(kWhite); //Label->SetFillColor(kWhite); //Label->SetTextColor(39); //Label->SetBorderSize(0); //Label->Draw(); //gph3->Draw("l"); Double_t tphrpg6[nph] = {-0.00139403, -0.0348929, -0.0707944, -0.107286, -0.143917, -0.217276, -0.29118, -0.364936, -0.441787, -0.602659, -0.765378, -0.921581, -1.06195, -1.17027, -1.25116, -1.28686, -1.27292, -1.21183, -1.11202, -0.985056, -0.84299, -0.718589, -0.572616, -0.432822, -0.302967, -0.184961, -0.0793357, 0.0141671, 0.0964853, 0.168642, 0.231842, 0.276257, 0.326398, 0.370465, 0.409197, 0.443123, 0.472809, 0.498773, 0.52149, 0.541377, 0.558796, 0.571442, 0.58515, 0.597161, 0.607665, 0.616818, 0.624764, 0.630973, 0.636932, 0.642002, 0.646291, 0.650319, 0.654857, 0.656509, 0.654827, 0.652371, 0.648479, 0.643459, 0.637587, 0.622962, 0.607813, 0.595048, 0.583592, 0.574033, 0.566854, 0.560502}; TGraph* gph6=new TGraph(nph,qph,tphrpg6); gph6->SetLineColor(49); gph6->SetMarkerStyle(1); gph6->SetMarkerSize(1.3); gph6->SetLineStyle(1); gph6->SetLineWidth(2); gph6->Draw("l"); thlegend->AddEntry(gph6,"#rho#pi#gamma f/g=6.1","L"); /*-------------------------------------------------------------------------------------- put line at -root(2) ---------------------------------------------------------------------------------------*/ Int_t n = 2; float xfm[2] = {0., 9.}; float yt20[2] = {0., 0.}; TGraph* g0=new TGraph(n,xfm,yt20); g0->SetLineColor(1); g0->SetMarkerStyle(1); g0->SetMarkerSize(1.3); g0->SetLineStyle(1); g0->SetLineWidth(1); g0->Draw("l"); yt20[0] = -1.*2**(0.5); yt20[1] = yt20[0]; xfm[1] = 1.; TGraph* g1=new TGraph(n,xfm,yt20); g1->SetLineColor(1); g1->SetMarkerStyle(1); g1->SetMarkerSize(1.3); g1->SetLineStyle(3); g1->SetLineWidth(1); g1->Draw("l"); /* sanity checks plots11dsdtSet(100,0.040,0.020,0.05,0.000,0.140,kBlack,legend,"E03-101 140 MeV Bins Pn< 100 Mev/c 80 mr X 40 mr"); */ /* PRL */ //plotSet(kBlue,legend,"T_{20}"); //plotSet(kBlue,legend,""); plotSet(kBlue,legend,""); //plots11dsdtSet(kBlue,legend,""); /***************************************************** Add the rest of the legend enteries *****************************************************/ //if(!with_d){ //legend->AddEntry(gQGS,"QGS","l"); //legend->AddEntry(gRNA,"RNA","l"); //legend->AddEntry(gHRM,"HRM","F"); //}; gStyle->SetPaperSize(20,26); //default //TPaveLabel *label = new TPaveLabel(0.5,0.4,0.85,0.5,"Preliminary","NDC"); //label->SetTextColor(kBlue); //label->Draw(); //cout<<with_d<<endl; c->SaveAs(fn+".pdf"); c->SaveAs(fn+".eps"); c->SaveAs(fn+".png"); }
void PlotPotential2D( const TString &sim, Int_t time, Int_t zoom=2, Int_t Nbins=2, const TString &options="") { #ifdef __CINT__ gSystem->Load("libplasma.so"); #endif PlasmaGlob::Initialize(); // Palettes! gROOT->Macro("PlasmaPalettes.C"); // Init Units table PUnits::UnitsTable::Get(); // Load PData PData *pData = PData::Get(sim.Data()); pData->LoadFileNames(time); if(!pData->IsInit()) return; TString opt = options; // More makeup gStyle->SetPadGridY(0); if(opt.Contains("gridx")) { gStyle->SetPadGridX(1); } if(opt.Contains("gridy")) { gStyle->SetPadGridY(1); } // Some plasma constants Double_t n0 = pData->GetPlasmaDensity(); Double_t omegap = pData->GetPlasmaFrequency(); Double_t timedepth = 1.; if(omegap!=0.0) timedepth = 1/omegap; Double_t kp = pData->GetPlasmaK(); Double_t skindepth = 1.; if(kp!=0.0) skindepth = 1/kp; Double_t E0 = pData->GetPlasmaE0(); // Some beam properties: Double_t Ebeam = pData->GetBeamEnergy(); Double_t gamma = pData->GetBeamGamma(); Double_t vbeam = pData->GetBeamVelocity(); cout << Form(" - Bunch gamma = %8.4f", gamma ) << endl; cout << Form(" - Bunch velocity = %8.4f c", vbeam ) << endl; // Other parameters Float_t trapPotential = 1.0 - (1.0/gamma); cout << Form(" - Trap. potential = %8.4f mc2/e",trapPotential) << endl; cout << endl; // Time in OU Float_t Time = pData->GetRealTime(); // z start of the plasma in normalized units. Float_t zStartPlasma = pData->GetPlasmaStart()*kp; // z start of the beam in normalized units. Float_t zStartBeam = pData->GetBeamStart()*kp; // z start of the neutral in normalized units. Float_t zStartNeutral = pData->GetNeutralStart()*kp; // z end of the neutral in normalized units. Float_t zEndNeutral = pData->GetNeutralEnd()*kp; if(opt.Contains("center")) { Time -= zStartPlasma; if(opt.Contains("comov")) // Centers on the head of the beam. Time += zStartBeam; } Float_t shiftz = pData->Shift(opt); // cout << "Shift = " << shiftz << endl; // Calculate the "axis range" in number of bins. If Nbins==0 a RMS width is taken. Double_t rms0 = pData->GetBeamRmsY() * kp; if(pData->IsCyl()) rms0 = pData->GetBeamRmsR() * kp; Int_t FirstyBin = 0; Int_t LastyBin = 0; if(Nbins==0) { if(rms0>0.0) Nbins = TMath::Nint(rms0 / pData->GetDX(1)); else Nbins = 1; } // Slice width limits. if(!pData->IsCyl()) { FirstyBin = pData->GetNX(1)/2 + 1 - Nbins; LastyBin = pData->GetNX(1)/2 + Nbins; } else { FirstyBin = 1; LastyBin = Nbins; } // ---------------------------------------------------------------------------------- // Get charge density histos Int_t Nspecies = pData->NSpecies(); TH2F **hDen2D = new TH2F*[Nspecies]; // Get charge density on-axis TH1F **hDen1D = new TH1F*[Nspecies]; // And electric current (integrated) TH1F **hCur1D = new TH1F*[Nspecies]; for(Int_t i=0; i<Nspecies; i++) { hDen2D[i] = NULL; if(!pData->GetChargeFileName(i)) continue; cout << Form(" Getting charge density of specie: ") << i << endl; char hName[24]; sprintf(hName,"hDen2D_%i",i); hDen2D[i] = (TH2F*) gROOT->FindObject(hName); if(hDen2D[i]) delete hDen2D[i]; if(!pData->Is3D()) hDen2D[i] = pData->GetCharge(i,opt); else hDen2D[i] = pData->GetCharge2DSliceZY(i,-1,Nbins,opt+"avg"); hDen2D[i]->SetName(hName); hDen2D[i]->GetXaxis()->CenterTitle(); hDen2D[i]->GetYaxis()->CenterTitle(); hDen2D[i]->GetZaxis()->CenterTitle(); if(opt.Contains("comov")) hDen2D[i]->GetXaxis()->SetTitle("k_{p} #zeta"); else hDen2D[i]->GetXaxis()->SetTitle("k_{p} z"); if(pData->IsCyl()) hDen2D[i]->GetYaxis()->SetTitle("k_{p} r"); else hDen2D[i]->GetYaxis()->SetTitle("k_{p} y"); hDen2D[i]->GetZaxis()->SetTitle("n [n_{0}]"); hDen1D[i] = NULL; hCur1D[i] = NULL; if(!pData->GetEfieldFileName(i)) continue; sprintf(hName,"hDen1D_%i",i); hDen1D[i] = (TH1F*) gROOT->FindObject(hName); if(hDen1D[i]) delete hDen1D[i]; // 1D histograms if(pData->Is3D()) { hDen1D[i] = pData->GetH1SliceZ3D(pData->GetChargeFileName(i)->c_str(),"charge",-1,Nbins,-1,Nbins,opt+"avg"); } else if(pData->IsCyl()) { // Cylindrical: The first bin with r>0 is actually the number 1 (not the 0). hDen1D[i] = pData->GetH1SliceZ(pData->GetChargeFileName(i)->c_str(),"charge",1,Nbins,opt+"avg"); } else { // 2D cartesian hDen1D[i] = pData->GetH1SliceZ(pData->GetChargeFileName(i)->c_str(),"charge",-1,Nbins,opt+"avg"); } hDen1D[i]->SetName(hName); // if(hDen1D[i]) delete hDen1D[i]; // hDen1D[i] = (TH1F*) hE2D[i]->ProjectionX(hName,FirstyBin,LastyBin); // hDen1D[i]->Scale(1.0/(LastyBin-FirstyBin+1)); if(opt.Contains("comov")) hDen1D[i]->GetXaxis()->SetTitle("#zeta [c/#omega_{p}]"); else hDen1D[i]->GetXaxis()->SetTitle("z [c/#omega_{p}]"); if(i==0) hDen1D[i]->GetYaxis()->SetTitle("n/n_{0}"); else if(i==1) hDen1D[i]->GetYaxis()->SetTitle("n_{b}/n_{0}"); else hDen1D[i]->GetYaxis()->SetTitle("n_{i}/n_{0}"); // Get the current: if(i==0) continue; sprintf(hName,"hCur1D_%i",i); hCur1D[i] = (TH1F*) gROOT->FindObject(hName); if(hCur1D[i]) delete hCur1D[i]; if(opt.Contains("curr")) { // To get the current is needed to read in a wider transverse range which includes all the charge. Int_t NbinsT = 100; if(pData->Is3D()) { hCur1D[i] = pData->GetH1SliceZ3D(pData->GetChargeFileName(i)->c_str(),"charge",-1,NbinsT,-1,NbinsT,opt+"int"); } else if(pData->IsCyl()) { // Cylindrical: The first bin with r>0 is actually the number 1 (not the 0). hCur1D[i] = pData->GetH1SliceZ(pData->GetChargeFileName(i)->c_str(),"charge",1,NbinsT,opt+"int"); } else { // 2D cartesian hCur1D[i] = pData->GetH1SliceZ(pData->GetChargeFileName(i)->c_str(),"charge",-1,NbinsT,opt+"int"); } hCur1D[i]->SetName(hName); if(opt.Contains("comov")) { hCur1D[i]->GetXaxis()->SetTitle("#zeta [c/#omega_{p}]"); hCur1D[i]->GetYaxis()->SetTitle("dn/d#zeta [(n_{0}/k_{p}^{3}) (#omega_{p}/c)]"); } else { hCur1D[i]->GetXaxis()->SetTitle("z [c/#omega_{p}]"); hCur1D[i]->GetYaxis()->SetTitle("dn/dz [(n_{0}/k_{p}^{3}) (#omega_{p}/c)]"); } Int_t NB = hCur1D[i]->GetNbinsX(); Float_t dx = (hCur1D[i]->GetBinLowEdge(1)-hCur1D[i]->GetBinLowEdge(NB+1))/NB; // hCur1D[i]->Scale(dx); Float_t Charge = hCur1D[i]->Integral() * dx; cout << Form(" Integrated charge of specie %3i = %8.4f n0 * kp^-3",i,Charge) << endl; } } // Get electric fields 2D const Int_t Nfields = 3; TH2F **hE2D = new TH2F*[Nfields]; TH1F **hE1D = new TH1F*[Nfields]; TH2F *hV2D = NULL; TH1F *hV1D = NULL; for(Int_t i=0; i<Nfields; i++) { hE2D[i] = NULL; hE1D[i] = NULL; if(!pData->GetEfieldFileName(i)) continue; cout << Form(" Getting electric field number ") << i+1 << endl; char hName[24]; sprintf(hName,"hE2D_%i",i); hE2D[i] = (TH2F*) gROOT->FindObject(hName); if(hE2D[i]) delete hE2D[i]; if(!pData->Is3D()) hE2D[i] = pData->GetEField(i,opt); else hE2D[i] = pData->GetEField2DSliceZY(i,-1,Nbins,opt+"avg"); hE2D[i]->SetName(hName); hE2D[i]->GetXaxis()->CenterTitle(); hE2D[i]->GetYaxis()->CenterTitle(); hE2D[i]->GetZaxis()->CenterTitle(); if(opt.Contains("comov")) hE2D[i]->GetXaxis()->SetTitle("k_{p} #zeta"); else hE2D[i]->GetXaxis()->SetTitle("k_{p} z"); if(pData->IsCyl()) hE2D[i]->GetYaxis()->SetTitle("k_{p} r"); else hE2D[i]->GetYaxis()->SetTitle("k_{p} y"); if(i==0) hE2D[i]->GetZaxis()->SetTitle("E_{z}/E_{0}"); else if(i==1) hE2D[i]->GetZaxis()->SetTitle("E_{y}/E_{0}"); else if(i==2) hE2D[i]->GetZaxis()->SetTitle("E_{x}/E_{0}"); sprintf(hName,"hE1D_%i",i); hE1D[i] = (TH1F*) gROOT->FindObject(hName); if(hE1D[i]) delete hE1D[i]; // 1D histograms char nam[3]; sprintf(nam,"e%i",i+1); if(pData->Is3D()) { if(i==0) hE1D[i] = pData->GetH1SliceZ3D(pData->GetEfieldFileName(i)->c_str(),nam,-1,Nbins,-1,Nbins,opt+"avg"); else hE1D[i] = pData->GetH1SliceZ3D(pData->GetEfieldFileName(i)->c_str(),nam,-Nbins,Nbins,-Nbins,Nbins,opt+"avg"); } else if(pData->IsCyl()) { // Cylindrical: The first bin with r>0 is actually the number 1 (not the 0). hE1D[i] = pData->GetH1SliceZ(pData->GetEfieldFileName(i)->c_str(),nam,1,Nbins,opt+"avg"); } else { // 2D cartesian if(i==0) hE1D[i] = pData->GetH1SliceZ(pData->GetEfieldFileName(i)->c_str(),nam,-1,Nbins,opt+"avg"); else hE1D[i] = pData->GetH1SliceZ(pData->GetEfieldFileName(i)->c_str(),nam,-Nbins,Nbins,opt+"avg"); } hE1D[i]->SetName(hName); if(opt.Contains("comov")) hE1D[i]->GetXaxis()->SetTitle("#zeta [c/#omega_{p}]"); else hE1D[i]->GetXaxis()->SetTitle("z [c/#omega_{p}]"); if(i==0) hE1D[i]->GetYaxis()->SetTitle("E_{z} [E_{0}]"); else if(i==1) hE1D[i]->GetYaxis()->SetTitle("E_{y} [E_{0}]"); else if(i==2) hE1D[i]->GetYaxis()->SetTitle("E_{x} [E_{0}]"); // Alternative // if(hE1D[i]) delete hE1D[i]; // hE1D[i] = (TH1F*) hE2D[i]->ProjectionX(hName,FirstyBin,LastyBin); // hE1D[i]->Scale(1.0/(LastyBin-FirstyBin+1)); if(i==0) { Int_t NbinsX = hE2D[i]->GetNbinsX(); Int_t NbinsY = hE2D[i]->GetNbinsY(); Float_t dx = pData->GetDX(0); sprintf(hName,"hV2D"); hV2D = (TH2F*) hE2D[i]->Clone(hName); hV2D->Reset(); sprintf(hName,"hV1D"); hV1D = (TH1F*) hE1D[i]->Clone(hName); hV1D->Reset(); for(Int_t j=NbinsY; j>0; j--) { Double_t integral = 0.0; for(Int_t k=NbinsX; k>0; k--) { integral += hE2D[i]->GetBinContent(k,j) * dx; hV2D->SetBinContent(k,j,integral); } } Double_t integral = 0.0; for(Int_t k=NbinsX; k>0; k--) { integral += hE1D[i]->GetBinContent(k) * dx; hV1D->SetBinContent(k,integral); } } } // Now, combine the electric field components into the total |E| // and calculate ionization probability for He: // Outter Helium electron Double_t Eion0 = 24.59 * PUnits::eV; Double_t Z = 1; TH2F *hETotal2D = (TH2F*) hE2D[0]->Clone("hETotal2D"); hETotal2D->Reset(); TH2F *hIonProb2D = (TH2F*) hE2D[0]->Clone("hIonProb2D"); hIonProb2D->Reset(); TH1F *hETotal1D = (TH1F*) hE1D[0]->Clone("hETotal1D"); hETotal1D->Reset(); TH1F *hIonProb1D = (TH1F*) hE1D[0]->Clone("hIonProb1D"); hIonProb1D->Reset(); { Int_t NbinsX = hE2D[0]->GetNbinsX(); Int_t NbinsY = hE2D[0]->GetNbinsY(); for(Int_t j=0; j<NbinsX; j++) { for(Int_t k=0; k<NbinsY; k++) { Double_t E1 = hE2D[0]->GetBinContent(j,k); Double_t E2 = hE2D[1]->GetBinContent(j,k); Double_t E3 = hE2D[2]->GetBinContent(j,k); Double_t E = TMath::Sqrt(E1*E1+E2*E2+E3*E3); hETotal2D->SetBinContent(j,k,E); E *= E0; // Double_t IonProb = (PFunc::ADK(E,Eion0,Z,l,m)/PUnits::atomictime)*PUnits::femtosecond; Double_t IonProb = PFunc::ADK_ENG(E,Eion0,Z) * PUnits::femtosecond; // if(IonProb>1) IonProb = 1.0; // cout << "Ion prob = " << IonProb << endl; hIonProb2D->SetBinContent(j,k,IonProb); } Double_t E1 = hE1D[0]->GetBinContent(j); Double_t E2 = hE1D[1]->GetBinContent(j); Double_t E3 = hE1D[2]->GetBinContent(j); Double_t E = TMath::Sqrt(E1*E1+E2*E2+E3*E3); hETotal1D->SetBinContent(j,E); E *= E0; // Double_t IonProb = (PFunc::ADK(E,Eion0,Z,l,m)/PUnits::atomictime)*PUnits::femtosecond; Double_t IonProb = PFunc::ADK_ENG(E,Eion0,Z) * PUnits::femtosecond; // cout << "Ion prob = " << IonProb << endl; hIonProb1D->SetBinContent(j,IonProb); } } hETotal2D->GetZaxis()->SetTitle("E [E_{0}]"); hIonProb2D->GetZaxis()->SetTitle("W_{ADK} [fs^{-1}]"); hETotal1D->GetYaxis()->SetTitle("E [E_{0}]"); hIonProb1D->GetYaxis()->SetTitle("W_{ADK} [fs^{-1}]"); // Tunning the Histograms // --------------------- // Chaning to user units: // -------------------------- if(opt.Contains("units") && n0) { for(Int_t i=0; i<Nspecies; i++) { if(!hDen2D[i]) continue; Int_t NbinsX = hDen2D[i]->GetNbinsX(); Float_t xMin = skindepth * hDen2D[i]->GetXaxis()->GetXmin() / PUnits::um; Float_t xMax = skindepth * hDen2D[i]->GetXaxis()->GetXmax() / PUnits::um; Int_t NbinsY = hDen2D[i]->GetNbinsY(); Float_t ymin = skindepth * hDen2D[i]->GetYaxis()->GetXmin() / PUnits::um; Float_t ymax = skindepth * hDen2D[i]->GetYaxis()->GetXmax() / PUnits::um; hDen2D[i]->SetBins(NbinsX,xMin,xMax,NbinsY,ymin,ymax); // for(Int_t j=0;j<hDen2D[i]->GetNbinsX();j++) { // for(Int_t k=0;k<hDen2D[i]->GetNbinsY();k++) { // hDen2D[i]->SetBinContent(j,k, hDen2D[i]->GetBinContent(j,k) * n0 / (1e17/PUnits::cm3) ); // } // } if(pData->IsCyl()) hDen2D[i]->GetYaxis()->SetTitle("r [#mum]"); else hDen2D[i]->GetYaxis()->SetTitle("y [#mum]"); if(opt.Contains("comov")) hDen2D[i]->GetXaxis()->SetTitle("#zeta [#mum]"); else hDen2D[i]->GetXaxis()->SetTitle("z [#mum]"); // if(i==0) // hDen2D[i]->GetZaxis()->SetTitle("n_{e} [10^{17}/cm^{3}]"); // else if(i==1) // hDen2D[i]->GetZaxis()->SetTitle("n_{b} [10^{17}/cm^{3}]"); // else // hDen2D[i]->GetZaxis()->SetTitle("n_{i} [10^{17}/cm^{3}]"); hDen1D[i]->SetBins(NbinsX,xMin,xMax); // for(Int_t j=0;j<hDen1D[i]->GetNbinsX();j++) { // hDen1D[i]->SetBinContent(j, hDen1D[i]->GetBinContent(j) * n0 / (1e17/PUnits::cm3) ); // } if(opt.Contains("comov")) hDen1D[i]->GetXaxis()->SetTitle("#zeta [#mum]"); else hDen1D[i]->GetXaxis()->SetTitle("z [#mum]"); if(hCur1D[i]) { hCur1D[i]->SetBins(NbinsX,xMin,xMax); Double_t binSize = (xMax - xMin)/NbinsX; // bin size in um. Double_t dV = skindepth * skindepth * skindepth; Double_t lightspeed = PConst::c_light / (PUnits::um/PUnits::femtosecond); hCur1D[i]->Scale(TMath::Abs(n0 * dV * (PConst::ElectronCharge/PUnits::picocoulomb) * (kp * PConst::c_light * PUnits::femtosecond))); hCur1D[i]->GetYaxis()->SetTitle("I[kA]"); hCur1D[i]->GetYaxis()->SetTitle(""); if(opt.Contains("comov")) hCur1D[i]->GetXaxis()->SetTitle("#zeta [#mum]"); else hCur1D[i]->GetXaxis()->SetTitle("z [#mum]"); Float_t Charge = hCur1D[i]->Integral() * (binSize / lightspeed); cout << Form(" Integrated charge of specie %3i = %8f pC",i,Charge) << endl; } } for(Int_t i=0; i<Nfields; i++) { Int_t NbinsX = hE2D[i]->GetNbinsX(); Float_t xMin = skindepth * hE2D[i]->GetXaxis()->GetXmin() / PUnits::um; Float_t xMax = skindepth * hE2D[i]->GetXaxis()->GetXmax() / PUnits::um; Int_t NbinsY = hE2D[i]->GetNbinsY(); Float_t ymin = skindepth * hE2D[i]->GetYaxis()->GetXmin() / PUnits::um; Float_t ymax = skindepth * hE2D[i]->GetYaxis()->GetXmax() / PUnits::um; hE2D[i]->SetBins(NbinsX,xMin,xMax,NbinsY,ymin,ymax); hE1D[i]->SetBins(NbinsX,xMin,xMax); for(Int_t j=0; j<hE2D[i]->GetNbinsX(); j++) { for(Int_t k=0; k<hE2D[i]->GetNbinsY(); k++) { hE2D[i]->SetBinContent(j,k, hE2D[i]->GetBinContent(j,k) * ( E0 / (PUnits::GV/PUnits::m) ) ); } hE1D[i]->SetBinContent(j, hE1D[i]->GetBinContent(j) * ( E0 / (PUnits::GV/PUnits::m) ) ); } if(pData->IsCyl()) hE2D[i]->GetYaxis()->SetTitle("r [#mum]"); else hE2D[i]->GetYaxis()->SetTitle("y [#mum]"); if(opt.Contains("comov")) hE2D[i]->GetXaxis()->SetTitle("#zeta [#mum]"); else hE2D[i]->GetXaxis()->SetTitle("z [#mum]"); if(i==0) hE2D[i]->GetZaxis()->SetTitle("E_{z} [GV/m]"); else if(i==1) hE2D[i]->GetZaxis()->SetTitle("E_{y} [GV/m]"); else if(i==2) hE2D[i]->GetZaxis()->SetTitle("E_{x} [GV/m]"); if(opt.Contains("comov")) hE1D[i]->GetXaxis()->SetTitle("#zeta [mm]"); else hE1D[i]->GetXaxis()->SetTitle("z [mm]"); if(i==0) hE1D[i]->GetYaxis()->SetTitle("E_{z} [GV/m]"); else if(i==1) hE1D[i]->GetYaxis()->SetTitle("E_{y} [GV/m]"); else if(i==2) hE1D[i]->GetYaxis()->SetTitle("E_{x} [GV/m]"); if(i==0) { hV2D->SetBins(NbinsX,xMin,xMax,NbinsY,ymin,ymax); hETotal2D->SetBins(NbinsX,xMin,xMax,NbinsY,ymin,ymax); hIonProb2D->SetBins(NbinsX,xMin,xMax,NbinsY,ymin,ymax); hV1D->SetBins(NbinsX,xMin,xMax); hETotal1D->SetBins(NbinsX,xMin,xMax); hIonProb1D->SetBins(NbinsX,xMin,xMax); for(Int_t j=0; j<NbinsX; j++) { for(Int_t k=0; k<NbinsY; k++) { hV2D->SetBinContent(j,k, hV2D->GetBinContent(j,k) * E0 * skindepth / (PUnits::MV)); hETotal2D->SetBinContent(j,k, hETotal2D->GetBinContent(j,k) * ( E0 / (PUnits::GV/PUnits::m) ) ); } hV1D->SetBinContent(j, hV1D->GetBinContent(j) * ( E0 * skindepth / (PUnits::MV) ) ); hETotal1D->SetBinContent(j, hETotal1D->GetBinContent(j) * ( E0 / (PUnits::GV/PUnits::m) ) ); } if(pData->IsCyl()) { hV2D->GetYaxis()->SetTitle("r [#mum]"); hETotal2D->GetYaxis()->SetTitle("r [#mum]"); } else { hV2D->GetYaxis()->SetTitle("y [#mum]"); hETotal2D->GetYaxis()->SetTitle("y [#mum]"); } if(opt.Contains("comov")) { hV2D->GetXaxis()->SetTitle("#zeta [#mum]"); hV1D->GetXaxis()->SetTitle("#zeta [#mum]"); hETotal2D->GetXaxis()->SetTitle("#zeta [#mum]"); hETotal1D->GetXaxis()->SetTitle("#zeta [#mum]"); } else { hV2D->GetXaxis()->SetTitle("z [#mum]"); hV2D->GetXaxis()->SetTitle("z [#mum]"); hETotal2D->GetXaxis()->SetTitle("z [#mum]"); hETotal1D->GetXaxis()->SetTitle("z [#mum]"); } hV2D->GetZaxis()->SetTitle("#Psi-#Psi_{t} [MV]"); hV1D->GetYaxis()->SetTitle("#Psi-#Psi_{t} [MV]"); hETotal2D->GetZaxis()->SetTitle("E [GV/m]"); hETotal1D->GetYaxis()->SetTitle("E [GV/m]"); } } } // --------------------------------------------------- Vertical Zoom ------------ Float_t yRange = (hDen2D[0]->GetYaxis()->GetXmax() - hDen2D[0]->GetYaxis()->GetXmin())/zoom; Float_t midPoint = (hDen2D[0]->GetYaxis()->GetXmax() + hDen2D[0]->GetYaxis()->GetXmin())/2.; Float_t yMin = midPoint-yRange/2; Float_t yMax = midPoint+yRange/2; if(pData->IsCyl()) { yMin = pData->GetXMin(1); yMax = yRange; } for(Int_t i=0; i<Nspecies; i++) { if(!hDen2D[i]) continue; hDen2D[i]->GetYaxis()->SetRangeUser(yMin,yMax); } for(Int_t i=0; i<Nfields; i++) { if(!hE2D[i]) continue; hE2D[i]->GetYaxis()->SetRangeUser(yMin,yMax); } hETotal2D->GetYaxis()->SetRangeUser(yMin,yMax); Float_t xMin = hDen2D[0]->GetXaxis()->GetXmin(); Float_t xMax = hDen2D[0]->GetXaxis()->GetXmax(); Float_t xRange = xMax - xMin; // ------------- z Zoom --------------------------------- Plasma palette ----------- // Set the range of the plasma charge density histogram for maximum constrast // using a dynamic palette wich adjust the nominal value to a certain color. Float_t density = 1; Float_t Base = density; Float_t *Max = new Float_t[Nspecies]; Float_t *Min = new Float_t[Nspecies]; for(Int_t i=0; i<Nspecies; i++) { if(!hDen2D[i]) continue; Max[i] = hDen2D[i]->GetMaximum(); Min[i] = 1.01E-1 * Base; if(i==1) Min[i] = 1.01E-1 * Base; if(i==2) Min[i] = 1.01E-4 * Base; hDen2D[i]->GetZaxis()->SetRangeUser(Min[i],Max[i]); } // Dynamic plasma palette const Int_t plasmaDNRGBs = 3; const Int_t plasmaDNCont = 64; Float_t basePos = 0.5; if(Max[0]!=Min[0]) { if(opt.Contains("logz")) { Float_t a = 1.0/(TMath::Log10(Max[0])-TMath::Log10(Min[0])); Float_t b = TMath::Log10(Min[0]); basePos = a*(TMath::Log10(Base) - b); } else { basePos = (1.0/(Max[0]-Min[0]))*(Base - Min[0]); } } Double_t plasmaDStops[plasmaDNRGBs] = { 0.00, basePos, 1.00 }; Double_t plasmaDRed[plasmaDNRGBs] = { 0.99, 0.90, 0.00 }; Double_t plasmaDGreen[plasmaDNRGBs] = { 0.99, 0.90, 0.00 }; Double_t plasmaDBlue[plasmaDNRGBs] = { 0.99, 0.90, 0.00 }; PPalette * plasmaPalette = (PPalette*) gROOT->FindObject("plasma"); plasmaPalette->CreateGradientColorTable(plasmaDNRGBs, plasmaDStops, plasmaDRed, plasmaDGreen, plasmaDBlue, plasmaDNCont); // Change the range of z axis for the fields to be symmetric. Float_t *Emax = new Float_t[Nfields]; Float_t *Emin = new Float_t[Nfields]; for(Int_t i=0; i<Nfields; i++) { Emax[i] = hE2D[i]->GetMaximum(); Emin[i] = hE2D[i]->GetMinimum(); if(Emax[i] > TMath::Abs(Emin[i])) Emin[i] = -Emax[i]; else Emax[i] = -Emin[i]; hE2D[i]->GetZaxis()->SetRangeUser(Emin[i],Emax[i]); } // Potential if(opt.Contains("units")) { trapPotential *= ( E0 * skindepth / (PUnits::MV) ); } Float_t Vmin = hV1D->GetMinimum(); { // Shift potential Int_t NbinsX = hV2D->GetNbinsX(); Int_t NbinsY = hV2D->GetNbinsY(); for(Int_t j=0; j<NbinsX; j++) { for(Int_t k=0; k<NbinsY; k++) { hV2D->SetBinContent(j,k, hV2D->GetBinContent(j,k) - Vmin -trapPotential); } hV1D->SetBinContent(j, hV1D->GetBinContent(j) - Vmin -trapPotential); } } Vmin = hV1D->GetMinimum(); Float_t Vmax = hV1D->GetMaximum(); // Dynamic potential palette const Int_t potPNRGBs = 5; const Int_t potPNCont = 64; Float_t zeroPos = -Vmin/(Vmax-Vmin); Double_t potPStops[potPNRGBs] = { 0.00, zeroPos-3.0/potPNCont,zeroPos, zeroPos+3.0/potPNCont, 1.00 }; Double_t potPRed[potPNRGBs] = { 0.518, 0.965, 0.90, 0.498, 0.106 }; Double_t potPGreen[potPNRGBs] = { 0.078, 0.925, 0.90, 0.718, 0.078 }; Double_t potPBlue[potPNRGBs] = { 0.106, 0.353, 0.90, 0.780, 0.518 }; PPalette * potentialPalette = (PPalette*) gROOT->FindObject("rbow2inv"); potentialPalette->CreateGradientColorTable(potPNRGBs, potPStops, potPRed, potPGreen, potPBlue, potPNCont); // Extract contours TCanvas* c = new TCanvas("c","Contour List",0,0,600,600); c->cd(); // Potential TH2F *hV2Dc = (TH2F*) hV2D->Clone("hV2Dc"); const Int_t Ncontours = 25; Double_t contours[Ncontours]; for(Int_t i=0; i<Ncontours; i++) { contours[i] = i*(trapPotential/5.0) - trapPotential; } hV2Dc->SetContour(Ncontours, contours); hV2Dc->Draw("cont list"); c->Update(); TObjArray *contsV2D = (TObjArray*) gROOT->GetListOfSpecials()->FindObject("contours"); TClonesArray graphsV2D("TGraph",Ncontours); { Int_t ncontours = contsV2D->GetSize(); TList* clist = NULL; Int_t nGraphs = 0; TGraph *gr = NULL; for(Int_t i = 0; i < ncontours; i++) { if(i==0) continue; clist = (TList*) contsV2D->At(i); for(Int_t j = 0 ; j < clist->GetSize(); j++) { gr = (TGraph*) clist->At(j); if(!gr) continue; gr->SetLineWidth(1); gr->SetLineColor(kGray+1); if( !((i)%5) ) { gr->SetLineWidth(2); gr->SetLineColor(kGray+2); } new(graphsV2D[nGraphs]) TGraph(*gr) ; nGraphs++; } } } // Ion probability hIonProb2D->GetZaxis()->SetRangeUser(0.00501,80); TH2F *hIonProb2Dc = (TH2F*) hIonProb2D->Clone("hIonProb2Dc"); const Int_t NcontI = 4; Double_t contI[NcontI] = {0.01,0.1,1.0,10.0}; hIonProb2Dc->SetContour(NcontI, contI); hIonProb2Dc->Draw("cont list"); c->Update(); TObjArray *contsI2D = (TObjArray*) gROOT->GetListOfSpecials()->FindObject("contours"); TClonesArray graphsI2D("TGraph",NcontI); { Int_t ncontours = contsI2D->GetSize(); TList* clist = NULL; Int_t nGraphs = 0; TGraph *gr = NULL; for(Int_t i = 0; i < ncontours; i++) { clist = (TList*) contsI2D->At(i); for(Int_t j = 0 ; j < clist->GetSize(); j++) { gr = (TGraph*) clist->At(j); if(!gr) continue; if( !(i%2) ) { gr->SetLineWidth(1); gr->SetLineStyle(2); gr->SetLineColor(kOrange-3); } else { gr->SetLineWidth(1); gr->SetLineStyle(1); gr->SetLineColor(kOrange-3); } new(graphsI2D[nGraphs]) TGraph(*gr) ; nGraphs++; } } } // "Axis range" in Osiris units: Double_t ylow = hDen2D[0]->GetYaxis()->GetBinLowEdge(FirstyBin); Double_t yup = hDen2D[0]->GetYaxis()->GetBinUpEdge(LastyBin); Double_t xmin = hDen2D[0]->GetXaxis()->GetXmin(); Double_t xmax = hDen2D[0]->GetXaxis()->GetXmax(); TLine *lineYzero = new TLine(xmin,0.0,xmax,0.0); lineYzero->SetLineColor(kGray+2); lineYzero->SetLineStyle(2); TLine *lineYup = new TLine(xmin,yup,xmax,yup); lineYup->SetLineColor(kGray+1); lineYup->SetLineStyle(2); TLine *lineYdown = new TLine(xmin,ylow,xmax,ylow); lineYdown->SetLineColor(kGray+1); lineYdown->SetLineStyle(2); zStartPlasma -= shiftz; zStartNeutral -= shiftz; zEndNeutral -= shiftz; if(opt.Contains("units")) { zStartPlasma *= skindepth / PUnits::um; zStartNeutral *= skindepth / PUnits::um; zEndNeutral *= skindepth / PUnits::um; } // cout << "Start plasma = " << zStartPlasma << endl; TLine *lineStartPlasma = new TLine(zStartPlasma,yMin,zStartPlasma,yMax); lineStartPlasma->SetLineColor(kGray+2); lineStartPlasma->SetLineStyle(2); lineStartPlasma->SetLineWidth(3); // cout << "Start plasma = " << zStartNeutral << endl; TLine *lineStartNeutral = new TLine(zStartNeutral,yMin,zStartNeutral,yMax); lineStartNeutral->SetLineColor(kGray+1); lineStartNeutral->SetLineStyle(2); lineStartNeutral->SetLineWidth(3); // cout << "End plasma = " << zEndNeutral << endl; TLine *lineEndNeutral = new TLine(zEndNeutral,yMin,zEndNeutral,yMax); lineEndNeutral->SetLineColor(kGray+1); lineEndNeutral->SetLineStyle(2); lineEndNeutral->SetLineWidth(3); // Plotting // ----------------------------------------------- // Canvas setup TCanvas *C = new TCanvas("C","2D Charge density and Electric field",750,666); // Palettes setup TExec *exPlasma = new TExec("exPlasma","plasmaPalette->cd();"); TExec *exElec = new TExec("exElec","redelectronPalette->cd();"); TExec *exHot = new TExec("exHot","hotPalette->cd();"); TExec *exField = new TExec("exField","rbow2Palette->cd();"); TExec *exFieldT = new TExec("exFieldT","redPalette->cd();"); TExec *exIonP = new TExec("exIonP","redPalette->cd();"); TExec *exPot = new TExec("exPot","rbow2invPalette->cd();"); // Actual Plotting! // ------------------------------------------------------------ // Output file TString fOutName = Form("./%s/Plots/Potential2D/Potential2D",pData->GetPath().c_str()); fOutName += Form("-%s_%i",pData->GetName(),time); // Setup Pad layout: Float_t lMargin = 0.15; Float_t rMargin = 0.18; Float_t bMargin = 0.15; Float_t tMargin = 0.04; Float_t factor = 1.0; PlasmaGlob::CanvasAsymPartition(C,2,lMargin,rMargin,bMargin,tMargin,factor); TPad *pad[2]; TString sLabels[] = {"(a)","(b)"}; // Text objects TPaveText **textLabel = new TPaveText*[2]; C->cd(0); char pname[16]; sprintf(pname,"pad_%i",1); pad[0] = (TPad*) gROOT->FindObject(pname); pad[0]->Draw(); pad[0]->cd(); // <---------------------------------------------- Top Plot --------- if(opt.Contains("logz")) { pad[0]->SetLogz(1); } else { pad[0]->SetLogz(0); } pad[0]->SetFrameLineWidth(3); pad[0]->SetTickx(1); // Re-range: for(Int_t i=0; i<Nspecies; i++) { if(!hDen2D[i]) continue; hDen2D[i]->GetYaxis()->SetRangeUser(yMin -(factor-1)*yRange, yMax); } TH2F *hFrame = (TH2F*) gROOT->FindObject("hFrame1"); if(hFrame) delete hFrame; hFrame = (TH2F*) hDen2D[0]->Clone("hFrame1"); hFrame->Reset(); hFrame->SetLabelFont(42,"xyz"); hFrame->SetTitleFont(42,"xyz"); hFrame->GetYaxis()->SetNdivisions(505); hFrame->GetYaxis()->SetLabelSize(0.085); hFrame->GetYaxis()->SetTitleSize(0.09); hFrame->GetYaxis()->SetTitleOffset(0.7); hFrame->GetYaxis()->SetTickLength(0.02); hFrame->GetXaxis()->SetLabelOffset(999.); hFrame->GetXaxis()->SetTitleOffset(999.); hFrame->GetXaxis()->SetTickLength(0.04); // Frame asymmetry: hFrame->Draw("col"); // hDen2D[0]->GetZaxis()->SetNdivisions(505); // Injected electrons if any if(Nspecies>=3) { if(hDen2D[2]) { exHot->Draw(); hDen2D[2]->Draw("colz same"); } } // Plasma hDen2D[0]->GetZaxis()->SetTitleFont(42); exPlasma->Draw(); hDen2D[0]->Draw("colz same"); // Beam driver. if(hDen2D[1]) { // hDen2D[1]->GetZaxis()->SetNdivisions(505); exElec->Draw(); hDen2D[1]->Draw("colz same"); } { TGraph *gr = (TGraph*) graphsV2D.At(4); gr->Draw("C"); } { TGraph *gr = (TGraph*) graphsI2D.At(1); gr->Draw("C"); } if(opt.Contains("1dline")) { lineYzero->Draw(); lineYdown->Draw(); lineYup->Draw(); } if(opt.Contains("sline")) { if(zStartPlasma>xmin && zStartPlasma<xmax) lineStartPlasma->Draw(); if(zStartNeutral>xmin && zStartNeutral<xmax) lineStartNeutral->Draw(); if(zEndNeutral>xmin && zEndNeutral<xmax) lineEndNeutral->Draw(); } // lineYdown->Draw(); // lineYup->Draw(); // Palettes re-arrangement pad[0]->Update(); Float_t y1 = pad[0]->GetBottomMargin(); Float_t y2 = 1 - pad[0]->GetTopMargin(); Float_t x1 = pad[0]->GetLeftMargin(); Float_t x2 = 1 - pad[0]->GetRightMargin(); TPaletteAxis *palette = NULL; if(Nspecies>=3) { if(hDen2D[2]) { palette = (TPaletteAxis*)hDen2D[2]->GetListOfFunctions()->FindObject("palette"); } } if(palette) { palette->SetY2NDC(y2 - 0.00); palette->SetY1NDC(0.66*(y1+y2) + 0.00); palette->SetX1NDC(x2 + 0.005); palette->SetX2NDC(x2 + 0.03); // palette->SetTitleFont(42); // palette->SetTitleOffset(0.85); palette->SetTitleOffset(999.9); palette->SetTitleSize(0.075); palette->SetLabelFont(42); palette->SetLabelSize(0.075); palette->SetLabelOffset(0.001); palette->SetBorderSize(2); palette->SetLineColor(1); } palette = (TPaletteAxis*)hDen2D[0]->GetListOfFunctions()->FindObject("palette"); if(palette) { palette->SetY2NDC(0.66*(y1+y2) - 0.00); palette->SetY1NDC(0.33*(y1+y2) + 0.00); palette->SetX1NDC(x2 + 0.005); palette->SetX2NDC(x2 + 0.03); // palette->SetTitleFont(42); palette->SetTitleOffset(0.80); palette->SetTitleSize(0.075); palette->SetLabelFont(42); palette->SetLabelSize(0.075); palette->SetLabelOffset(0.001); palette->SetBorderSize(2); palette->SetLineColor(1); } palette = (TPaletteAxis*)hDen2D[1]->GetListOfFunctions()->FindObject("palette"); if(palette) { palette->SetY2NDC(0.33*(y1+y2) - 0.00); palette->SetY1NDC(y1 + 0.00); palette->SetX1NDC(x2 + 0.005); palette->SetX2NDC(x2 + 0.03); //palette->SetTitleFont(42); //palette->SetTitleOffset(0.85); palette->SetTitleOffset(999.9); palette->SetTitleSize(0.075); palette->SetLabelFont(42); palette->SetLabelSize(0.075); palette->SetLabelOffset(0.001); palette->SetBorderSize(2); palette->SetLineColor(1); } // 1D charge density plots: Float_t yaxismin = pad[0]->GetUymin(); Float_t yaxismax = pad[0]->GetUymin() + 0.33*(pad[0]->GetUymax() - pad[0]->GetUymin()) - 0.00; Float_t denmin = Min[1]; Float_t denmax = Max[1]; if(opt.Contains("logz")) { denmin = TMath::Log10(denmin); denmax = TMath::Log10(denmax); } Float_t curmin = 0.0; Float_t curmax = 0.0; if(opt.Contains("curr")) { curmin = 0.0; curmax = hCur1D[1]->GetMaximum(); cout << Form(" Maximum driver current = %6.2f kA ", curmax) << endl ; if(Nspecies>=3) if(hCur1D[2]) cout << Form(" Maximum witness current = %6.2f kA ", hCur1D[2]->GetMaximum()) << endl ; // Round for better plotting curmax = 0.1*TMath::Nint(curmax*10); } for(Int_t i=0; i<Nspecies; i++) { if(!hDen1D[i]) continue; Float_t slope = (yaxismax - yaxismin)/(denmax - denmin); for(Int_t j=0; j<hDen1D[i]->GetNbinsX(); j++) { Float_t content = hDen1D[i]->GetBinContent(j+1); if(opt.Contains("logz")) content = TMath::Log10(content); if(content<denmin) hDen1D[i]->SetBinContent(j+1,yaxismin); else hDen1D[i]->SetBinContent(j+1,(content - denmin) * slope + yaxismin); } if(hCur1D[i]) { slope = (yaxismax - yaxismin)/(curmax - curmin); for(Int_t j=0; j<hCur1D[i]->GetNbinsX(); j++) { Float_t content = hCur1D[i]->GetBinContent(j+1); if(content<curmin) hCur1D[i]->SetBinContent(j+1,yaxismin); else hCur1D[i]->SetBinContent(j+1,(content - curmin) * slope + yaxismin); } } } // Plasma on-axis density: // hDen1D[0]->SetLineWidth(2); // hDen1D[0]->SetLineColor(kGray+1); // // // PlasmaGlob::SetH1Style(hDen1D[0],1); // hDen1D[0]->Draw("same C"); if(opt.Contains("curr")) { hCur1D[1]->SetLineWidth(2); hCur1D[1]->SetLineColor(PlasmaGlob::elecLine); hCur1D[1]->Draw("same C"); } else { hDen1D[1]->SetLineWidth(2); hDen1D[1]->SetLineColor(PlasmaGlob::elecLine); // hDen1D[1]->Draw("same C"); } if(Nspecies>=3) { if(hDen1D[2]) { if(opt.Contains("curr")) { hCur1D[2]->SetLineWidth(2); hCur1D[2]->SetLineColor(kOrange+8); hCur1D[2]->Draw("same C"); } else { hDen1D[2]->SetLineWidth(2); hDen1D[2]->SetLineColor(kOrange+8); // hDen1D[2]->Draw("same C"); } } } // Current axis TGaxis *axis = NULL; if(opt.Contains("curr")) { axis = new TGaxis(xMax-xRange/6.0,yMin - (factor-1)*yRange, xMax-xRange/6.0,yaxismax, 0.001,curmax,503,"+LS"); axis->SetLineWidth(1); axis->SetLineColor(kGray+3);//PlasmaGlob::elecLine); axis->SetLabelColor(kGray+3);//PlasmaGlob::elecLine); axis->SetLabelSize(0.06); axis->SetLabelOffset(0.01); axis->SetLabelFont(42); axis->SetTitleColor(kGray+3);//PlasmaGlob::elecLine); axis->SetTitleSize(0.06); axis->SetTitleOffset(0.6); axis->SetTitleFont(42); axis->SetTickSize(0.03); axis->SetTitle("I [kA]"); axis->CenterTitle(); axis->SetNdivisions(505); axis->Draw(); } TPaveText *textTime = new TPaveText(xMax - 0.3*xRange, yMax-0.15*yRange, xMax-0.1, yMax-0.05*yRange); //x2-0.17,y2-0.12,x2-0.02,y2-0.02,"NDC"); PlasmaGlob::SetPaveTextStyle(textTime,32); char ctext[128]; if(opt.Contains("units") && n0) sprintf(ctext,"z = %5.1f #mum", Time * skindepth / PUnits::um); else sprintf(ctext,"t = %5.1f #omega_{p}^{-1}",Time); textTime->SetTextFont(42); textTime->AddText(ctext); textTime->Draw(); // textDen->Draw(); // if(opt.Contains("units")) // textWav->Draw(); textLabel[0] = new TPaveText(xMin + 0.02*xRange, yMax-0.2*yRange, xMin+0.30*xRange, yMax-0.05*yRange); PlasmaGlob::SetPaveTextStyle(textLabel[0],12); textLabel[0]->SetTextFont(42); textLabel[0]->AddText(sLabels[0]); textLabel[0]->Draw(); pad[0]->RedrawAxis(); C->cd(0); sprintf(pname,"pad_%i",0); pad[1] = (TPad*) gROOT->FindObject(pname); pad[1]->Draw(); pad[1]->cd(); // <--------------------------------------------------------- Bottom Plot pad[1]->SetFrameLineWidth(3); pad[1]->SetTickx(1); hFrame = (TH2F*) gROOT->FindObject("hFrame2"); if(hFrame) delete hFrame; hFrame = (TH2F*) hDen2D[0]->Clone("hFrame2"); hFrame->Reset(); Float_t yFactor = pad[0]->GetAbsHNDC()/pad[1]->GetAbsHNDC(); hFrame->GetYaxis()->SetLabelSize(yFactor*0.085); hFrame->GetYaxis()->SetTitleSize(yFactor*0.09); hFrame->GetYaxis()->SetTitleOffset(0.7/yFactor); hFrame->GetYaxis()->SetTickLength(0.02/yFactor); hFrame->GetXaxis()->SetTitleSize(0.10); hFrame->GetXaxis()->SetLabelSize(0.08); hFrame->GetXaxis()->SetLabelOffset(0.02); hFrame->GetXaxis()->SetTitleOffset(1.0); hFrame->GetXaxis()->SetTickLength(0.04*yFactor); hFrame->SetLabelFont(42,"xyz"); hFrame->SetTitleFont(42,"xyz"); hFrame->Draw("col"); // hE2D[0]->GetZaxis()->SetNdivisions(505); hV2D->GetZaxis()->SetTitleFont(42); hV2D->GetZaxis()->SetTickLength(0.02/yFactor); exPot->Draw(); hV2D->Draw("col z same"); for(Int_t i=0; i<graphsV2D.GetEntriesFast(); i++) { TGraph *gr = (TGraph*) graphsV2D.At(i); if(!gr) continue; gr->Draw("C"); } for(Int_t i=0; i<graphsI2D.GetEntriesFast(); i++) { //if(i!=2) continue; TGraph *gr = (TGraph*) graphsI2D.At(i); if(!gr) continue; gr->Draw("C"); } if(opt.Contains("1dline")) { lineYzero->Draw(); lineYdown->Draw(); lineYup->Draw(); } if(opt.Contains("sline")) { if(zStartPlasma>xmin && zStartPlasma<xmax) lineStartPlasma->Draw(); if(zStartNeutral>xmin && zStartNeutral<xmax) lineStartNeutral->Draw(); if(zEndNeutral>xmin && zEndNeutral<xmax) lineEndNeutral->Draw(); } pad[1]->Update(); y1 = pad[1]->GetBottomMargin(); y2 = 1 - pad[1]->GetTopMargin(); x1 = pad[1]->GetLeftMargin(); x2 = 1 - pad[1]->GetRightMargin(); palette = (TPaletteAxis*)hV2D->GetListOfFunctions()->FindObject("palette"); if(palette) { palette->SetY2NDC(y2 - 0.00); palette->SetY1NDC(y1 + 0.00); palette->SetX1NDC(x2 + 0.005); palette->SetX2NDC(x2 + 0.03); // palette->SetTitleFont(42); palette->SetTitleSize(yFactor*0.075); palette->SetTitleOffset(0.80/yFactor); palette->SetLabelSize(yFactor*0.075); palette->SetLabelFont(42); palette->SetLabelOffset(0.01/yFactor); palette->SetBorderSize(2); palette->SetLineColor(1); } pad[1]->RedrawAxis(); textLabel[1] = new TPaveText(xMin + 0.02*xRange, yMax-0.2*yRange, xMin+0.30*xRange, yMax-0.05*yRange); PlasmaGlob::SetPaveTextStyle(textLabel[1],12); textLabel[1]->SetTextFont(42); textLabel[1]->AddText(sLabels[1]); textLabel[1]->Draw(); C->cd(); // Print to a file PlasmaGlob::imgconv(C,fOutName,opt); // --------------------------------------------------------- PlasmaGlob::DestroyCanvases(); }