// file to fit fluo spectrum per pixel with Kalpha and Kalpha plus Kbeta // and compare the differences #include "../sls_detector_calibration/jungfrauCommonHeader.h" #include "../sls_detector_calibration/jungfrauCommonFunctions.h" #include "../sls_detector_calibration/jungfrauFile.C" #include "../sls_detector_calibration/jungfrauPixelMask.C" #include "../sls_detector_calibration/jungfrauPedestal.C" #include "../sls_detector_calibration/energyCalibration.h" #include "../sls_detector_calibration/energyCalibration.cpp" #include "TGraph.h" #include "TGraphErrors.h" #include "TF1.h" #include "TFile.h" #include "TPaveStats.h" #include "TLegend.h" #include "TPaveText.h" int main(int argc, char* argv[]) { jungfrauStyle(); gStyle->SetOptFit(11); if (argc != 3) { cout << "Correct usage:" << endl; cout << "arg 1: specify module number" << endl; cout << "arg 2: specify HG0 or G0" << endl; cout << " " << endl; exit(1); } string module_str = argv[1]; string gain_str = argv[2]; char histoname[128]; char savename[128]; TCanvas* c1 = new TCanvas("c1",""); sprintf(savename,"/mnt/pcmoench_jungfrau_data/jungfrau_ana_sophie/M%s_CalibAna/CuFluo_%s_comb.root", module_str.c_str(), gain_str.c_str()); TFile* comb_file = new TFile((const char *)(savename),"READ"); jungfrauPixelMask *pixelMaskObject = new jungfrauPixelMask(); bool pixel_mask [NCH]; pixelMaskObject->initialisePixelMask(pixel_mask); int low_ADU_peak = 0; int high_ADU_peak = 0; if (gain_str == "HG0") { low_ADU_peak = 700; high_ADU_peak = 900; } else if (gain_str == "G0") { low_ADU_peak = 250; high_ADU_peak = 400; } TH1F* peak_Ka_fit_pos = new TH1F("peak_Ka_fit_pos","",100,low_ADU_peak,high_ADU_peak); TH1F* peak_Ka_fit_poserr = new TH1F("peak_Ka_fit_poserr","",100,0,2); TH2F* peak_Ka_fit_pos_2d = new TH2F("peak_Ka_fit_pos_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH2F* peak_Ka_fit_poserr_2d = new TH2F("peak_Ka_fit_poserr_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH1F* peak_KaKb_fit_pos = new TH1F("peak_KaKb_fit_pos","",100,low_ADU_peak,high_ADU_peak); TH1F* peak_KaKb_fit_poserr = new TH1F("peak_KaKb_fit_poserr","",100,0,2); TH2F* peak_KaKb_fit_pos_2d = new TH2F("peak_KaKb_fit_pos_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH2F* peak_KaKb_fit_poserr_2d = new TH2F("peak_KaKb_fit_poserr_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH1F* noise_fit_pos = new TH1F("noise_fit_pos","",100,-30,30); TH1F* noise_fit_poserr = new TH1F("noise_fit_poserr","",100,0,0.1); TH2F* noise_fit_pos_2d = new TH2F("noise_fit_pos_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH2F* noise_fit_poserr_2d = new TH2F("noise_fit_poserr_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH1F* gain_Ka_fit = new TH1F("gain_Ka_fit","",100,low_ADU_peak,high_ADU_peak); TH1F* gain_Ka_fiterr = new TH1F("gain_Ka_fiterr","",100,0,2); TH2F* gain_Ka_fit_2d = new TH2F("gain_Ka_fit_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH2F* gain_Ka_fiterr_2d = new TH2F("gain_Ka_fiterr_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH1F* gain_KaKb_fit = new TH1F("gain_KaKb_fit","",100,low_ADU_peak,high_ADU_peak); TH1F* gain_KaKb_fiterr = new TH1F("gain_KaKb_fiterr","",100,0,2); TH2F* gain_KaKb_fit_2d = new TH2F("gain_KaKb_fit_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH2F* gain_KaKb_fiterr_2d = new TH2F("gain_KaKb_fiterr_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); TH1F* gain_diff_fit = new TH1F("gain_diff_fit","",100,-10,10); TH2F* gain_diff_fit_2d = new TH2F("gain_diff_fit_2d","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5); int low_bin_noise = 101; int high_bin_noise = 301; int low_bin_peak = 0; int high_bin_peak = 0; if (gain_str == "HG0") { low_bin_peak = 701; high_bin_peak = 1200; } else if (gain_str == "G0") { low_bin_peak = 301; high_bin_peak = 651; } for (int j=1; j<9; j++) { cout << "slice " << j << endl; sprintf(histoname,"adc2d_%i",j); TH2I* adc2d_j = (TH2I*)(comb_file->Get((const char *)(histoname))); cout << adc2d_j->GetEntries() << endl; adc2d_j->Draw("colz"); c1->Update(); for (int i=(65536*(j-1)); i<(65536*(j)); i++) { if (i%10000==0){cout << "another 10k" << endl;} TH1D* proj = adc2d_j->ProjectionX("bin1",i-(65536*(j-1))+1,i-(65536*(j-1))+1); if (proj->Integral(low_bin_noise,high_bin_noise)!=0 && proj->Integral(low_bin_peak,high_bin_peak)!=0) { // noise TH1D *proj_noise = dynamic_cast(proj->Rebin(4,"proj_noise")); proj_noise->SetStats(kTRUE); proj_noise->GetXaxis()->SetRangeUser(proj->GetBinLowEdge(low_bin_noise),proj->GetBinLowEdge(high_bin_noise+1)); proj_noise->Fit("gaus","Q"); TF1 *fit = proj_noise->GetFunction("gaus"); noise_fit_pos->Fill(fit->GetParameter(1)); noise_fit_pos_2d->Fill(i%NC,i/NC,fit->GetParameter(1)); noise_fit_poserr->Fill(fit->GetParError(1)); noise_fit_poserr_2d->Fill(i%NC,i/NC,fit->GetParError(1)); // peak TH1D *proj_peak = dynamic_cast(proj->Rebin(4,"proj_peak")); proj_peak->SetStats(kTRUE); proj_peak->GetXaxis()->SetRangeUser(proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); // Ka Double_t mypar_Ka[6]; mypar_Ka[0] = 0.0; mypar_Ka[1] = 0.0; mypar_Ka[2] = proj_peak->GetBinCenter(proj_peak->GetMaximumBin()); mypar_Ka[3] = 19.; mypar_Ka[4] = proj_peak->GetBinContent(proj_peak->GetMaximumBin()); mypar_Ka[5] = 0.18; Double_t emypar_Ka[6]; energyCalibration *thiscalibration_Ka = new energyCalibration(); int sign_Ka = 1; thiscalibration_Ka->setScanSign(sign_Ka); thiscalibration_Ka->setStartParametersKb(mypar_Ka); thiscalibration_Ka->fixParameter(0,0.); // no background thiscalibration_Ka->fixParameter(1,0.); TF1* fittedfun_Ka = thiscalibration_Ka->fitSpectrum(proj_peak,mypar_Ka,emypar_Ka); peak_Ka_fit_pos->Fill(mypar_Ka[2]); peak_Ka_fit_poserr->Fill(emypar_Ka[2]); peak_Ka_fit_pos_2d->Fill(i%NC,i/NC,mypar_Ka[2]); peak_Ka_fit_poserr_2d->Fill(i%NC,i/NC,emypar_Ka[2]); if ((i >= 58000 && i < 58000+10) || // bulk (i >= 10 && i < 10+10) || // edge (i >= 1024+10 && i < 1024+10+10) || // inner edge (i >= (256*1024)+10 && i < (256*1024)+10+10) || // double (i >= (257*1024)+10 && i < (257*1024)+10+10) || // next to double (i == (255*1024)+255) // quad ) { string pixel_type = "x"; if (i >= 58000 && i < 58000+10) { pixel_type = "b"; } else if (i >= 10 && i < 10+10) { pixel_type = "e"; } else if (i >= 1024+10 && i < 1024+10+10) { pixel_type = "ie"; } else if (i >= (256*1024)+10 && i < (256*1024)+10+10) { pixel_type = "d"; } else if (i >= (257*1024)+10 && i < (257*1024)+10+10) { pixel_type = "ntd"; } else if (i == (255*1024)+255) { pixel_type = "q"; } proj_noise->Draw(); c1->Update(); proj_noise->GetXaxis()->SetTitle("Pedestal corrected ADC [ADU]"); proj_noise->GetXaxis()->SetRangeUser(-100,150); fit->SetParNames("N_{#gamma}", "Peak pos", "Noise RMS"); TPaveStats *st0 = (TPaveStats*)proj_noise->FindObject("stats"); st0->SetX1NDC(0.53); st0->SetX2NDC(0.94); st0->SetY1NDC(0.75); st0->SetY2NDC(0.94); st0->SetBorderSize(0); st0->SetTextSize(0.04); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/noise_%s_%d_%s_M%s.png", module_str.c_str(), gain_str.c_str(), pixel_type.c_str(), i, gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); TF1 *mygaus_Ka = new TF1("mygaus_Ka","gaus",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); mygaus_Ka->SetParameters(mypar_Ka[4],mypar_Ka[2],mypar_Ka[3]); mygaus_Ka->SetLineColor(kBlue); TF1 *mypedestal_Ka = new TF1("mypedestal_Ka","[0]-[1]*[2]*x",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); mypedestal_Ka->SetParameters(mypar_Ka[0],mypar_Ka[1],sign_Ka); mypedestal_Ka->SetLineColor(kViolet-5); TF1 *myerfc_Ka = new TF1("myerfc_Ka","[0]/2.*(TMath::Erfc(([1]*(x-[2])/[3])/(TMath::Sqrt(2.))))",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); myerfc_Ka->SetParameters(mypar_Ka[4]*mypar_Ka[5], sign_Ka, mypar_Ka[2], mypar_Ka[3]); myerfc_Ka->SetLineColor(kOrange); proj_peak->Draw(); fittedfun_Ka->Draw("same"); myerfc_Ka->Draw("same"); mygaus_Ka->Draw("same"); mypedestal_Ka->Draw("same"); proj_peak->SetMinimum(-10); c1->Update(); proj_peak->GetXaxis()->SetTitle("Pedestal corrected ADC [ADU]"); fittedfun_Ka->SetParNames("Bkg height", "Bkg grad", "K_{#alpha} pos", "Noise RMS", "K_{#alpha} height", "CS"); TPaveStats *st = (TPaveStats*)proj_peak->FindObject("stats"); st->SetX1NDC(0.22); st->SetX2NDC(0.62); st->SetY1NDC(0.7); st->SetY2NDC(0.94); st->SetBorderSize(0); st->SetTextSize(0.04); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_Ka_%s_%d_%s_M%s.png", module_str.c_str(), gain_str.c_str(), pixel_type.c_str(), i, gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); } gain_Ka_fit->Fill(mypar_Ka[2] - fit->GetParameter(1)); gain_Ka_fiterr->Fill(sqrt(pow(emypar_Ka[2],2) + pow(fit->GetParError(1),2))); gain_Ka_fit_2d->Fill(i%NC,i/NC,mypar_Ka[2] - fit->GetParameter(1)); gain_Ka_fiterr_2d->Fill(i%NC,i/NC,sqrt(pow(emypar_Ka[2],2) + pow(fit->GetParError(1),2))); // KaKb Double_t mypar_KaKb[8]; mypar_KaKb[0] = 0.0; mypar_KaKb[1] = 0.0; mypar_KaKb[2] = proj_peak->GetBinCenter(proj_peak->GetMaximumBin()); if (gain_str == "G0") { mypar_KaKb[3] = 16.; } else if (gain_str == "HG0") { mypar_KaKb[3] = 29.; } mypar_KaKb[4] = proj_peak->GetBinContent(proj_peak->GetMaximumBin()); if (gain_str == "G0") { mypar_KaKb[5] = 0.17; } else if (gain_str == "HG0") { mypar_KaKb[5] = 0.14; } mypar_KaKb[6] = 1.12; if (gain_str == "G0") { mypar_KaKb[7] = 0.12; } else if (gain_str == "HG0") { mypar_KaKb[7] = 0.14; } Double_t emypar_KaKb[8]; energyCalibration *thiscalibration_KaKb = new energyCalibration(); int sign_KaKb = 1; thiscalibration_KaKb->setScanSign(sign_KaKb); thiscalibration_KaKb->setStartParametersKb(mypar_KaKb); thiscalibration_KaKb->fixParameter(0,0.); // no background thiscalibration_KaKb->fixParameter(1,0.); TF1* fittedfun_KaKb = thiscalibration_KaKb->fitSpectrumKb(proj_peak,mypar_KaKb,emypar_KaKb); peak_KaKb_fit_pos->Fill(mypar_KaKb[2]); peak_KaKb_fit_poserr->Fill(emypar_KaKb[2]); peak_KaKb_fit_pos_2d->Fill(i%NC,i/NC,mypar_KaKb[2]); peak_KaKb_fit_poserr_2d->Fill(i%NC,i/NC,emypar_KaKb[2]); if ((i >= 58000 && i < 58000+10) || // bulk (i >= 10 && i < 10+10) || // edge (i >= 1024+10 && i < 1024+10+10) || // inner edge (i >= (256*1024)+10 && i < (256*1024)+10+10) || // double (i >= (257*1024)+10 && i < (257*1024)+10+10) || // next to double (i == (255*1024)+255) // quad ) { string pixel_type = "x"; if (i >= 58000 && i < 58000+10) { pixel_type = "b"; } else if (i >= 10 && i < 10+10) { pixel_type = "e"; } else if (i >= 1024+10 && i < 1024+10+10) { pixel_type = "ie"; } else if (i >= (256*1024)+10 && i < (256*1024)+10+10) { pixel_type = "d"; } else if (i >= (257*1024)+10 && i < (257*1024)+10+10) { pixel_type = "ntd"; } else if (i == (255*1024)+255) { pixel_type = "q"; } TF1 *mygaus_KaKb = new TF1("mygaus_KaKb","gaus",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); mygaus_KaKb->SetParameters(mypar_KaKb[4],mypar_KaKb[2],mypar_KaKb[3]); mygaus_KaKb->SetLineColor(kBlue); TF1 *mygausb_KaKb = new TF1("mygausb_KaKb","gaus",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); mygausb_KaKb->SetParameters(mypar_KaKb[4]*mypar_KaKb[7],mypar_KaKb[6]*mypar_KaKb[2],mypar_KaKb[3]); mygausb_KaKb->SetLineColor(kGreen+2); TF1 *myerfc_KaKb = new TF1("myerfc_KaKb","[0]/2.*(TMath::Erfc(([1]*(x-[2])/[3])/(TMath::Sqrt(2.))))",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); myerfc_KaKb->SetParameters(mypar_KaKb[4]*mypar_KaKb[5], sign_KaKb, mypar_KaKb[2], mypar_KaKb[3]); myerfc_KaKb->SetLineColor(kOrange); TF1 *myerfcb_KaKb = new TF1("myerfcb_KaKb","[0]/2.*(TMath::Erfc(([1]*(x-[2])/[3])/(TMath::Sqrt(2.))))",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); myerfcb_KaKb->SetParameters(mypar_KaKb[4]*mypar_KaKb[7]*mypar_KaKb[5], sign_KaKb, mypar_KaKb[6]*mypar_KaKb[2], mypar_KaKb[3]); myerfcb_KaKb->SetLineColor(kOrange+7); TF1 *mypedestal_KaKb = new TF1("mypedestal_KaKb","[0]-[1]*[2]*x",proj->GetBinLowEdge(low_bin_peak),proj->GetBinLowEdge(high_bin_peak+1)); mypedestal_KaKb->SetParameters(mypar_KaKb[0],mypar_KaKb[1],sign_KaKb); mypedestal_KaKb->SetLineColor(kViolet-5); proj_peak->Draw(); fittedfun_KaKb->Draw("same"); mygaus_KaKb->Draw("same"); mygausb_KaKb->Draw("same"); myerfc_KaKb->Draw("same"); myerfcb_KaKb->Draw("same"); mypedestal_KaKb->Draw("same"); proj->SetMinimum(-10); c1->Update(); proj_peak->GetXaxis()->SetTitle("Pedestal corrected ADC [ADU]"); fittedfun_KaKb->SetParNames("Bkg height", "Bkg grad", "K_{#alpha} pos", "Noise RMS", "K_{#alpha} height", "CS", "K_{#beta}/K_{#alpha} pos", "K_{#beta} frac"); TPaveStats *st = (TPaveStats*)proj_peak->FindObject("stats"); st->SetX1NDC(0.22); st->SetX2NDC(0.62); st->SetY1NDC(0.7); st->SetY2NDC(0.94); st->SetBorderSize(0); st->SetTextSize(0.04); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_KaKb_%s_%d_%s_M%s.png", module_str.c_str(), gain_str.c_str(), pixel_type.c_str(), i, gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); } gain_KaKb_fit->Fill(mypar_KaKb[2] - fit->GetParameter(1)); gain_KaKb_fiterr->Fill(sqrt(pow(emypar_KaKb[2],2) + pow(fit->GetParError(1),2))); gain_KaKb_fit_2d->Fill(i%NC,i/NC,mypar_KaKb[2] - fit->GetParameter(1)); gain_KaKb_fiterr_2d->Fill(i%NC,i/NC,sqrt(pow(emypar_KaKb[2],2) + pow(fit->GetParError(1),2))); gain_diff_fit->Fill(mypar_KaKb[2] - mypar_Ka[2]); gain_diff_fit_2d->Fill(i%NC,i/NC,mypar_KaKb[2] - mypar_Ka[2]); delete thiscalibration_Ka; delete thiscalibration_KaKb; delete proj_noise; delete proj_peak; delete proj; } else { pixel_mask[i] = false; } } } sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/pixelmask_afterfit_%s_M%s.png", module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); pixelMaskObject->plotPixelMask(pixel_mask,savename); TCanvas *mapcanvas = new TCanvas("mapcanvas","",150,10,800,400); mapcanvas->SetLeftMargin(0.1); mapcanvas->SetRightMargin(0.13); mapcanvas->SetTopMargin(0.08); mapcanvas->SetBottomMargin(0.15); TPaveText *pave = new TPaveText(0.86,0.95,0.91,0.98,"blNDC"); pave->SetBorderSize(0); pave->SetFillStyle(0); pave->SetTextSize(0.06); pave->SetTextAlign(32); peak_Ka_fit_pos_2d->GetXaxis()->SetTitle("Column"); peak_Ka_fit_pos_2d->GetYaxis()->SetTitle("Row"); peak_Ka_fit_pos_2d->GetYaxis()->SetTitleOffset(0.7); peak_Ka_fit_pos_2d->Draw("colz"); peak_Ka_fit_pos_2d->GetZaxis()->SetRangeUser(low_ADU_peak,high_ADU_peak); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_Ka_fit_pos_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); peak_Ka_fit_poserr_2d->GetXaxis()->SetTitle("Column"); peak_Ka_fit_poserr_2d->GetYaxis()->SetTitle("Row"); peak_Ka_fit_poserr_2d->GetYaxis()->SetTitleOffset(0.7); peak_Ka_fit_poserr_2d->Draw("colz"); peak_Ka_fit_poserr_2d->GetZaxis()->SetRangeUser(0,2); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_Ka_fit_poserr_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); peak_KaKb_fit_pos_2d->GetXaxis()->SetTitle("Column"); peak_KaKb_fit_pos_2d->GetYaxis()->SetTitle("Row"); peak_KaKb_fit_pos_2d->GetYaxis()->SetTitleOffset(0.7); peak_KaKb_fit_pos_2d->Draw("colz"); peak_KaKb_fit_pos_2d->GetZaxis()->SetRangeUser(low_ADU_peak,high_ADU_peak); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_KaKb_fit_pos_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); peak_KaKb_fit_poserr_2d->GetXaxis()->SetTitle("Column"); peak_KaKb_fit_poserr_2d->GetYaxis()->SetTitle("Row"); peak_KaKb_fit_poserr_2d->GetYaxis()->SetTitleOffset(0.7); peak_KaKb_fit_poserr_2d->Draw("colz"); peak_KaKb_fit_poserr_2d->GetZaxis()->SetRangeUser(0,2); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_KaKb_fit_poserr_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); noise_fit_pos_2d->GetXaxis()->SetTitle("Column"); noise_fit_pos_2d->GetYaxis()->SetTitle("Row"); noise_fit_pos_2d->GetYaxis()->SetTitleOffset(0.7); noise_fit_pos_2d->Draw("colz"); noise_fit_pos_2d->GetZaxis()->SetRangeUser(-30,30); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/noise_fit_pos_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); noise_fit_poserr_2d->GetXaxis()->SetTitle("Column"); noise_fit_poserr_2d->GetYaxis()->SetTitle("Row"); noise_fit_poserr_2d->GetYaxis()->SetTitleOffset(0.7); noise_fit_poserr_2d->Draw("colz"); if (gain_str == "HG0") { noise_fit_poserr_2d->GetZaxis()->SetRangeUser(0,0.1); } else if (gain_str == "G0") { noise_fit_poserr_2d->GetZaxis()->SetRangeUser(0,0.05); } sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/noise_fit_poserr_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); gain_Ka_fit_2d->GetXaxis()->SetTitle("Column"); gain_Ka_fit_2d->GetYaxis()->SetTitle("Row"); gain_Ka_fit_2d->GetYaxis()->SetTitleOffset(0.7); gain_Ka_fit_2d->Draw("colz"); sprintf(savename,"%s [ADU/8 keV]", gain_str.c_str()); pave->AddText((const char *)(savename)); pave->Draw(); gain_Ka_fit_2d->GetZaxis()->SetRangeUser(low_ADU_peak,high_ADU_peak); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_Ka_fit_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); gain_Ka_fiterr_2d->GetXaxis()->SetTitle("Column"); gain_Ka_fiterr_2d->GetYaxis()->SetTitle("Row"); gain_Ka_fiterr_2d->GetYaxis()->SetTitleOffset(0.7); gain_Ka_fiterr_2d->Draw("colz"); gain_Ka_fiterr_2d->GetZaxis()->SetRangeUser(0,2); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_Ka_fiterr_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); gain_KaKb_fit_2d->GetXaxis()->SetTitle("Column"); gain_KaKb_fit_2d->GetYaxis()->SetTitle("Row"); gain_KaKb_fit_2d->GetYaxis()->SetTitleOffset(0.7); gain_KaKb_fit_2d->Draw("colz"); sprintf(savename,"%s [ADU/8 keV]", gain_str.c_str()); pave->Clear(); pave->AddText((const char *)(savename)); pave->Draw(); gain_KaKb_fit_2d->GetZaxis()->SetRangeUser(low_ADU_peak,high_ADU_peak); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_KaKb_fit_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); gain_KaKb_fiterr_2d->GetXaxis()->SetTitle("Column"); gain_KaKb_fiterr_2d->GetYaxis()->SetTitle("Row"); gain_KaKb_fiterr_2d->GetYaxis()->SetTitleOffset(0.7); gain_KaKb_fiterr_2d->Draw("colz"); gain_KaKb_fiterr_2d->GetZaxis()->SetRangeUser(0,2); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_KaKb_fiterr_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); gain_diff_fit_2d->GetXaxis()->SetTitle("Column"); gain_diff_fit_2d->GetYaxis()->SetTitle("Row"); gain_diff_fit_2d->GetYaxis()->SetTitleOffset(0.7); gain_diff_fit_2d->Draw("colz"); sprintf(savename,"%s diff [ADU]", gain_str.c_str()); pave->Clear(); pave->AddText((const char *)(savename)); pave->Draw(); gain_diff_fit_2d->GetZaxis()->SetRangeUser(-10,10); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_diff_fit_2d_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); mapcanvas->SaveAs((const char *)(savename)); c1->cd(); peak_Ka_fit_pos->GetXaxis()->SetTitle("Peak position [ADU]"); peak_Ka_fit_pos->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_Ka_fit_pos_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); peak_Ka_fit_poserr->GetXaxis()->SetTitle("Peak position uncert [ADU]"); peak_Ka_fit_poserr->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_Ka_fit_poserr_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); peak_KaKb_fit_pos->GetXaxis()->SetTitle("Peak position [ADU]"); peak_KaKb_fit_pos->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_KaKb_fit_pos_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); peak_KaKb_fit_poserr->GetXaxis()->SetTitle("Peak position uncert [ADU]"); peak_KaKb_fit_poserr->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/peak_KaKb_fit_poserr_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); noise_fit_pos->GetXaxis()->SetTitle("Noise position [ADU]"); noise_fit_pos->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/noise_fit_pos_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); noise_fit_poserr->GetXaxis()->SetTitle("Noise position uncert [ADU]"); noise_fit_poserr->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/noise_fit_poserr_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); sprintf(savename,"Gain %s [ADU / 8 keV]", gain_str.c_str()); gain_Ka_fit->GetXaxis()->SetTitle((const char *)(savename)); gain_Ka_fit->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_Ka_fit_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); gain_Ka_fit->GetXaxis()->SetRangeUser(low_ADU_peak+30, high_ADU_peak); gain_Ka_fit->Fit("gaus"); gain_Ka_fit->Draw(); c1->Update(); TPaveText *pave2 = new TPaveText(0.6,0.8,0.94,0.94,"blNDC"); pave2->SetBorderSize(0); pave2->SetFillStyle(0); pave2->SetTextSize(0.04); pave2->SetTextAlign(32); TF1* gain_Ka_fit_gaus = gain_Ka_fit->GetFunction("gaus"); sprintf(savename,"Mean %0.2f #pm %0.2f", gain_Ka_fit_gaus->GetParameter(1), gain_Ka_fit_gaus->GetParError(1)); pave2->AddText((const char *)(savename)); sprintf(savename,"Sigma %0.2f #pm %0.2f", gain_Ka_fit_gaus->GetParameter(2), gain_Ka_fit_gaus->GetParError(2)); pave2->AddText((const char *)(savename)); pave2->Draw(); gain_Ka_fit->SetStats(kFALSE); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_Ka_fit_fit_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); gain_Ka_fiterr->GetXaxis()->SetTitle("Gain uncert [ADU / 8 keV]"); gain_Ka_fiterr->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_Ka_fiterr_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); sprintf(savename,"Gain %s [ADU / 8 keV]", gain_str.c_str()); gain_KaKb_fit->GetXaxis()->SetTitle((const char *)(savename)); gain_KaKb_fit->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_KaKb_fit_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); gain_KaKb_fit->GetXaxis()->SetRangeUser(low_ADU_peak+30, high_ADU_peak); gain_KaKb_fit->Fit("gaus"); gain_KaKb_fit->Draw(); c1->Update(); pave2->Clear(); TF1* gain_KaKb_fit_gaus = gain_KaKb_fit->GetFunction("gaus"); sprintf(savename,"Mean %0.2f #pm %0.2f", gain_KaKb_fit_gaus->GetParameter(1), gain_KaKb_fit_gaus->GetParError(1)); pave2->AddText((const char *)(savename)); sprintf(savename,"Sigma %0.2f #pm %0.2f", gain_KaKb_fit_gaus->GetParameter(2), gain_KaKb_fit_gaus->GetParError(2)); pave2->AddText((const char *)(savename)); pave2->Draw(); gain_KaKb_fit->SetStats(kFALSE); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_KaKb_fit_fit_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); gain_KaKb_fiterr->GetXaxis()->SetTitle("Gain uncert [ADU / 8 keV]"); gain_KaKb_fiterr->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_KaKb_fiterr_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); sprintf(savename,"%s K_{#alpha} diff [ADU]", gain_str.c_str()); gain_diff_fit->GetXaxis()->SetTitle((const char *)(savename)); gain_diff_fit->Draw(); sprintf(savename,"plots/M%s/CuFluo_Ka_KaKb_Comp/%s/gain_diff_fit_%s_M%s.png",module_str.c_str(), gain_str.c_str(), gain_str.c_str(), module_str.c_str()); c1->SaveAs((const char *)(savename)); }