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rf708_bphysics.C: 'SPECIAL PDFS' RooFit tutorial macro #708
////////////////////////////////////////////////////////////////////////// // // 'SPECIAL PDFS' RooFit tutorial macro #708 // // Special decay pdf for B physics with mixing and/or CP violation // // // // 07/2008 - Wouter Verkerke // ///////////////////////////////////////////////////////////////////////// #ifndef __CINT__ #include "RooGlobalFunc.h" #endif #include "RooRealVar.h" #include "RooDataSet.h" #include "RooGaussian.h" #include "RooConstVar.h" #include "RooCategory.h" #include "RooBMixDecay.h" #include "RooBCPEffDecay.h" #include "RooBDecay.h" #include "RooFormulaVar.h" #include "RooTruthModel.h" #include "TCanvas.h" #include "TAxis.h" #include "RooPlot.h" using namespace RooFit ; void rf708_bphysics() { //////////////////////////////////////////////////// // B - D e c a y w i t h m i x i n g // //////////////////////////////////////////////////// // C o n s t r u c t p d f // ------------------------- // Observable RooRealVar dt("dt","dt",-10,10) ; dt.setBins(40) ; // Parameters RooRealVar dm("dm","delta m(B0)",0.472) ; RooRealVar tau("tau","tau (B0)",1.547) ; RooRealVar w("w","flavour mistag rate",0.1) ; RooRealVar dw("dw","delta mistag rate for B0/B0bar",0.1) ; RooCategory mixState("mixState","B0/B0bar mixing state") ; mixState.defineType("mixed",-1) ; mixState.defineType("unmixed",1) ; RooCategory tagFlav("tagFlav","Flavour of the tagged B0") ; tagFlav.defineType("B0",1) ; tagFlav.defineType("B0bar",-1) ; // Use delta function resolution model RooTruthModel tm("tm","truth model",dt) ; // Construct Bdecay with mixing RooBMixDecay bmix("bmix","decay",dt,mixState,tagFlav,tau,dm,w,dw,tm,RooBMixDecay::DoubleSided) ; // P l o t p d f i n v a r i o u s s l i c e s // --------------------------------------------------- // Generate some data RooDataSet* data = bmix.generate(RooArgSet(dt,mixState,tagFlav),10000) ; // Plot B0 and B0bar tagged data separately // For all plots below B0 and B0 tagged data will look somewhat differently // if the flavor tagging mistag rate for B0 and B0 is different (i.e. dw!=0) RooPlot* frame1 = dt.frame(Title("B decay distribution with mixing (B0/B0bar)")) ; data->plotOn(frame1,Cut("tagFlav==tagFlav::B0")) ; bmix.plotOn(frame1,Slice(tagFlav,"B0")) ; data->plotOn(frame1,Cut("tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bmix.plotOn(frame1,Slice(tagFlav,"B0bar"),LineColor(kCyan)) ; // Plot mixed slice for B0 and B0bar tagged data separately RooPlot* frame2 = dt.frame(Title("B decay distribution of mixed events (B0/B0bar)")) ; data->plotOn(frame2,Cut("mixState==mixState::mixed&&tagFlav==tagFlav::B0")) ; bmix.plotOn(frame2,Slice(tagFlav,"B0"),Slice(mixState,"mixed")) ; data->plotOn(frame2,Cut("mixState==mixState::mixed&&tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bmix.plotOn(frame2,Slice(tagFlav,"B0bar"),Slice(mixState,"mixed"),LineColor(kCyan)) ; // Plot unmixed slice for B0 and B0bar tagged data separately RooPlot* frame3 = dt.frame(Title("B decay distribution of unmixed events (B0/B0bar)")) ; data->plotOn(frame3,Cut("mixState==mixState::unmixed&&tagFlav==tagFlav::B0")) ; bmix.plotOn(frame3,Slice(tagFlav,"B0"),Slice(mixState,"unmixed")) ; data->plotOn(frame3,Cut("mixState==mixState::unmixed&&tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bmix.plotOn(frame3,Slice(tagFlav,"B0bar"),Slice(mixState,"unmixed"),LineColor(kCyan)) ; /////////////////////////////////////////////////////// // B - D e c a y w i t h C P v i o l a t i o n // /////////////////////////////////////////////////////// // C o n s t r u c t p d f // ------------------------- // Additional parameters needed for B decay with CPV RooRealVar CPeigen("CPeigen","CP eigen value",-1) ; RooRealVar absLambda("absLambda","|lambda|",1,0,2) ; RooRealVar argLambda("absLambda","|lambda|",0.7,-1,1) ; RooRealVar effR("effR","B0/B0bar reco efficiency ratio",1) ; // Construct Bdecay with CP violation RooBCPEffDecay bcp("bcp","bcp", dt, tagFlav, tau, dm, w, CPeigen, absLambda, argLambda, effR, dw, tm, RooBCPEffDecay::DoubleSided) ; // P l o t s c e n a r i o 1 - s i n ( 2 b ) = 0 . 7 , | l | = 1 // --------------------------------------------------------------------------- // Generate some data RooDataSet* data2 = bcp.generate(RooArgSet(dt,tagFlav),10000) ; // Plot B0 and B0bar tagged data separately RooPlot* frame4 = dt.frame(Title("B decay distribution with CPV(|l|=1,Im(l)=0.7) (B0/B0bar)")) ; data2->plotOn(frame4,Cut("tagFlav==tagFlav::B0")) ; bcp.plotOn(frame4,Slice(tagFlav,"B0")) ; data2->plotOn(frame4,Cut("tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bcp.plotOn(frame4,Slice(tagFlav,"B0bar"),LineColor(kCyan)) ; // P l o t s c e n a r i o 2 - s i n ( 2 b ) = 0 . 7 , | l | = 0 . 7 // ------------------------------------------------------------------------------- absLambda=0.7 ; // Generate some data RooDataSet* data3 = bcp.generate(RooArgSet(dt,tagFlav),10000) ; // Plot B0 and B0bar tagged data separately (sin2b = 0.7 plus direct CPV |l|=0.5) RooPlot* frame5 = dt.frame(Title("B decay distribution with CPV(|l|=0.7,Im(l)=0.7) (B0/B0bar)")) ; data3->plotOn(frame5,Cut("tagFlav==tagFlav::B0")) ; bcp.plotOn(frame5,Slice(tagFlav,"B0")) ; data3->plotOn(frame5,Cut("tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bcp.plotOn(frame5,Slice(tagFlav,"B0bar"),LineColor(kCyan)) ; ////////////////////////////////////////////////////////////////////////////////// // G e n e r i c B d e c a y w i t h u s e r c o e f f i c i e n t s // ////////////////////////////////////////////////////////////////////////////////// // C o n s t r u c t p d f // ------------------------- // Model parameters RooRealVar DGbG("DGbG","DGamma/GammaAvg",0.5,-1,1); RooRealVar Adir("Adir","-[1-abs(l)**2]/[1+abs(l)**2]",0); RooRealVar Amix("Amix","2Im(l)/[1+abs(l)**2]",0.7); RooRealVar Adel("Adel","2Re(l)/[1+abs(l)**2]",0.7); // Derived input parameters for pdf RooFormulaVar DG("DG","Delta Gamma","@1/@0",RooArgList(tau,DGbG)); // Construct coefficient functions for sin,cos,sinh modulations of decay distribution RooFormulaVar fsin("fsin","fsin","@0*@1*(1-2*@2)",RooArgList(Amix,tagFlav,w)); RooFormulaVar fcos("fcos","fcos","@0*@1*(1-2*@2)",RooArgList(Adir,tagFlav,w)); RooFormulaVar fsinh("fsinh","fsinh","@0",RooArgList(Adel)); // Construct generic B decay pdf using above user coefficients RooBDecay bcpg("bcpg","bcpg",dt,tau,DG,RooConst(1),fsinh,fcos,fsin,dm,tm,RooBDecay::DoubleSided); // P l o t - I m ( l ) = 0 . 7 , R e ( l ) = 0 . 7 | l | = 1, d G / G = 0 . 5 // ------------------------------------------------------------------------------------- // Generate some data RooDataSet* data4 = bcpg.generate(RooArgSet(dt,tagFlav),10000) ; // Plot B0 and B0bar tagged data separately RooPlot* frame6 = dt.frame(Title("B decay distribution with CPV(Im(l)=0.7,Re(l)=0.7,|l|=1,dG/G=0.5) (B0/B0bar)")) ; data4->plotOn(frame6,Cut("tagFlav==tagFlav::B0")) ; bcpg.plotOn(frame6,Slice(tagFlav,"B0")) ; data4->plotOn(frame6,Cut("tagFlav==tagFlav::B0bar"),MarkerColor(kCyan)) ; bcpg.plotOn(frame6,Slice(tagFlav,"B0bar"),LineColor(kCyan)) ; TCanvas* c = new TCanvas("rf708_bphysics","rf708_bphysics",1200,800) ; c->Divide(3,2) ; c->cd(1) ; gPad->SetLeftMargin(0.15) ; frame1->GetYaxis()->SetTitleOffset(1.6) ; frame1->Draw() ; c->cd(2) ; gPad->SetLeftMargin(0.15) ; frame2->GetYaxis()->SetTitleOffset(1.6) ; frame2->Draw() ; c->cd(3) ; gPad->SetLeftMargin(0.15) ; frame3->GetYaxis()->SetTitleOffset(1.6) ; frame3->Draw() ; c->cd(4) ; gPad->SetLeftMargin(0.15) ; frame4->GetYaxis()->SetTitleOffset(1.6) ; frame4->Draw() ; c->cd(5) ; gPad->SetLeftMargin(0.15) ; frame5->GetYaxis()->SetTitleOffset(1.6) ; frame5->Draw() ; c->cd(6) ; gPad->SetLeftMargin(0.15) ; frame6->GetYaxis()->SetTitleOffset(1.6) ; frame6->Draw() ; }
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