AllNeutronAnalysis.C File Reference

Go to the source code of this file.

Functions
int	AllNeutronAnalysis ()

Function Documentation

int AllNeutronAnalysis

(

)

Definition at line 5 of file AllNeutronAnalysis.C.

References b, count, ctime, Double_t, En, Eng, Enth, ev, fi, g, PndHypGePoint::GetDetectorID(), PndMCTrack::GetMomentum(), PndMCTrack::GetMotherID(), PndHypGePoint::GetpdgCode(), PndMCTrack::GetPdgCode(), PndHypGePoint::GetPx(), PndHypGePoint::GetPy(), PndHypGePoint::GetPz(), PndHypGePoint::GetTrackID(), PndHypGePoint::GetX(), PndHypGePoint::GetY(), PndHypGePoint::GetZ(), hit_bar, i, mc_bar, mcpdg, MotherId, Motherpdg, mult, nEvents, outfile, Pi, pos, rtime, timer, TString, vecs, and verbose.

{
Int_t *ActualTrackID ;
  // -----  Load libraries   ------------------------------------------------
//``gSystem->Load("fstream.h");
   gROOT->Macro("$VMCWORKDIR/gconfig/rootlogon.C");


   gSystem->Load("libHypGe");

  // -----   Timer   --------------------------------------------------------
  TStopwatch timer;
  timer.Start();
  // ------------------------------------------------------------------------

        TString Filename = "$SIMDATADIR/TripleBall40Offset10_urqmd_pbarC_1_5000Evts.root";


//Output Files
        //TString Path = getenv("SIMDATADIR");
        TString outfile= "$SIMDATADIR/Data_Marcell/TripleBall40Offset10_urqmd_pbarC_1_5000Evts_spectrum2.root";//"$SIMDATADIR/Data_Marcell/TripleBall40Offset10_urqmd_pbarC_1_5000Evts_spectrum.root";
        TFile* g = new TFile(Filename);
        TFile* fi = new TFile(outfile,"RECREATE");



   //photons from hyp electromag. decay
  TTree *b=(TTree *) g->Get("pndsim") ;
  TClonesArray* hit_bar=new TClonesArray("PndHypGePoint");
  b->SetBranchAddress("HypGePoint",&hit_bar);//Branch names
  TClonesArray* mc_bar=new TClonesArray("PndMCTrack");
  b->SetBranchAddress("MCTrack",&mc_bar);//Branch names




  //****photons from hyp elect. decay

        string Name = "Neutrons hitting the germaniums";
        TH1D* hNHits = new TH1D("hNHits",Name.c_str(),180, 90,180);
        TH1D* hNHits_p = new TH1D("hNHits_p",Name.c_str(),180, 90,180);
        TH1D* hNAll = new TH1D("hNAll","All Neutrons",180, 90,180);
        TH1D* hNMom = new TH1D("hNMom","Momentum of Neutrons",1000, 0,0.5);
        TH1D* hCrystalHit = new TH1D("hCrystalHit","Crystals hit by neutrons",1700,1,1700);

        bool verbose = false;
        Int_t MotherId,Motherpdg;



        TVector3 vecs,pos;
        int mcpdg = -1,ev;
        Double_t mult,En,Eng,Enth;

        //vector<int> event;
        int count;
        Int_t nEvents = b->GetEntriesFast();
        cout<< "Number of Simulated Events: "<<nEvents<<endl;


        Double_t Resolution = 2.;       //keV
        for (Int_t k=0; k<nEvents; k++)
        {
                        //cout << k << endl;
                Eng=0.;
                b->GetEntry(k);
                if (!((k*100)% nEvents))
                {
                        cout << k << endl;
                }
            //if(verbose) cout<<"Event No "<<j<<endl;
                for (Int_t i=0; i<hit_bar->GetEntriesFast(); i++)
                {
                        //cout <<"Hit "<< i << endl;
                        if (i == 0)
                        {
                        //cout << hit_bar->GetEntriesFast()<<endl;
                                PndHypGePoint *hitgam=(PndHypGePoint*)hit_bar->At(i);

                                ActualTrackID=-1;
                                PndMCTrack *mcgam = (PndMCTrack*)mc_bar->At(hitgam->GetTrackID());


                        //rande= gRandom->Gaus(hitgam->GetEnergyLoss(),0.000003);
                                if (hitgam->GetpdgCode()==2112 && mcgam->GetMotherID()==-1)
                                {
                                        ActualTrackID= hitgam->GetTrackID();
                                        TVector3 NHit;
                                        NHit.SetX(hitgam->GetX());
                                        NHit.SetY(hitgam->GetY());
                                        NHit.SetZ(hitgam->GetZ()+55);
                                        hNHits->Fill(180/TMath::Pi()*NHit.Theta());

                                        TVector3 NHit_p;
                                        NHit_p.SetX(hitgam->GetPx());
                                        NHit_p.SetY(hitgam->GetPy());
                                        NHit_p.SetZ(hitgam->GetPz());
                                        hNHits_p->Fill(180/TMath::Pi()*NHit_p.Theta());
                                        hCrystalHit->Fill(hitgam->GetDetectorID());
                                        //hNHits->Fill(180/TMath::Pi()*TMath::ACos(hitgam->GetZ()/TMath::Sqrt(hitgam->GetX()*hitgam->GetX()+hitgam->GetY()*hitgam->GetY()+hitgam->GetZ()* hitgam->GetZ())));            //Fill spectrum
                                }
                                if (mcgam->GetPdgCode()==2112 && mcgam->GetMotherID()==-1)
                                {
                                        TVector3 NAllMom = mcgam->GetMomentum();
                                        hNAll->Fill(180/TMath::Pi()*NAllMom.Theta());
                                        hNMom->Fill(1./2.*NAllMom.Mag2()/0.939);

                                        cout << 1./2.*NAllMom.Mag2()/0.939<<endl;
                                }

                        }
                        else
                        {
                                PndHypGePoint *hitgam=(PndHypGePoint*)hit_bar->At(i);

                                PndMCTrack *mcgam = (PndMCTrack*)mc_bar->At(hitgam->GetTrackID());


                                //rande= gRandom->Gaus(hitgam->GetEnergyLoss(),0.000003);
                                if (hitgam->GetpdgCode()==2112 && mcgam->GetMotherID()==-1)
                                {
                                        if (ActualTrackID != hitgam->GetTrackID())
                                        {
                                                TVector3 NHit;
                                                NHit.SetX(hitgam->GetX());
                                                NHit.SetY(hitgam->GetY());
                                                NHit.SetZ(hitgam->GetZ()+55);
                                                hNHits->Fill(180/TMath::Pi()*NHit.Theta());

                                                TVector3 NHit_p;
                                                NHit_p.SetX(hitgam->GetPx());
                                                NHit_p.SetY(hitgam->GetPy());
                                                NHit_p.SetZ(hitgam->GetPz());
                                                hNHits_p->Fill(180/TMath::Pi()*NHit_p.Theta());
                                                ActualTrackID = hitgam->GetTrackID();
                                                hCrystalHit->Fill(hitgam->GetDetectorID());
                                        }
                                }
                                if (mcgam->GetPdgCode()==2112 && mcgam->GetMotherID()==-1)
                                {
                                        TVector3 NAllMom = mcgam->GetMomentum();
                                        hNAll->Fill(180/TMath::Pi()*NAllMom.Theta());
                                        hNMom->Fill(1./2.*NAllMom.Mag2()/0.939);
                                        cout << 1./2.*NAllMom.Mag2()/0.939<<endl;
                                }

                        }
                }


          }// end for j (events)



  hNHits->Draw();

  //Analysis of spectrum
  hNHits->Write();
  hNHits_p->Write();
        hNAll->Write();
        hNMom->Write();
        hCrystalHit->Write();

        fi->Close();




        // -----   Finish   -------------------------------------------------------
        timer.Stop();
        Double_t rtime = timer.RealTime();
        Double_t ctime = timer.CpuTime();
        cout << endl << endl;
        cout << "Macro finished succesfully." << endl;

        cout << "Real time " << rtime << " s, CPU time " << ctime << " s" << endl;
        cout << endl;
        // ------------------------------------------------------------------------

  return 0;
}