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Public Member Functions | Private Types | Private Member Functions | Private Attributes

ZMuMuIsolationAnalyzer Class Reference

Inheritance diagram for ZMuMuIsolationAnalyzer:
edm::EDAnalyzer

List of all members.

Public Member Functions

 ZMuMuIsolationAnalyzer (const edm::ParameterSet &pset)

Private Types

enum  MuTag { muFromZ, muFromW, muFromOther }

Private Member Functions

virtual void analyze (const edm::Event &event, const edm::EventSetup &setup)
void Deposits (const pat::IsoDeposit *isodep, double dR_max, TH1F *hist)
virtual void endJob ()
void histo (const TH1F *hist, const char *cx, const char *cy) const
template<typename T >
MuTag muTag (const T &mu) const

Private Attributes

double alpha
double beta
double dREcal
double dRHcal
double dRTrk
double dRVeto
TH1F * EcalEt
TH1F * EcalEtZ
double eta
double etEcalThreshold
double etHcalThreshold
TH1F * h_IsoOther_ecal
TH1F * h_IsoOther_hcal
TH1F * h_IsoOther_tk
TH1F * h_IsoW_ecal
TH1F * h_IsoW_hcal
TH1F * h_IsoW_tk
TH1F * h_IsoZ_ecal
TH1F * h_IsoZ_hcal
TH1F * h_IsoZ_tk
TH1F * HcalEt
TH1F * HcalEtZ
double iso_cut
TH1F * IsoOther
TH1F * IsoW
TH1F * IsoZ
TH1F * Other_eta
TH1F * Other_eta_postSelection
TH1F * Other_pt
TH1F * Other_pt_postSelection
double pt
double ptThreshold
InputTag src_muons
TH1F * TkrPt
TH1F * W_eta
TH1F * W_eta_postSelection
TH1F * W_pt
TH1F * W_pt_postSelection
TH1F * Z_eta
TH1F * Z_eta_postSelection
TH1F * Z_pt
TH1F * Z_pt_postSelection

Detailed Description

Definition at line 35 of file ZMuMuIsolationAnalyzer.cc.


Member Enumeration Documentation

Enumerator:
muFromZ 
muFromW 
muFromOther 

Definition at line 61 of file ZMuMuIsolationAnalyzer.cc.


Constructor & Destructor Documentation

ZMuMuIsolationAnalyzer::ZMuMuIsolationAnalyzer ( const edm::ParameterSet pset)

Definition at line 128 of file ZMuMuIsolationAnalyzer.cc.

References alpha, beta, dRTrk, EcalEt, EcalEtZ, eta, h_IsoOther_ecal, h_IsoOther_hcal, h_IsoOther_tk, h_IsoW_ecal, h_IsoW_hcal, h_IsoW_tk, h_IsoZ_ecal, h_IsoZ_hcal, h_IsoZ_tk, HcalEt, HcalEtZ, IsoOther, IsoW, IsoZ, Other_eta, Other_eta_postSelection, Other_pt, Other_pt_postSelection, pt, ptThreshold, TkrPt, W_eta, W_eta_postSelection, W_pt, W_pt_postSelection, Z_eta, Z_eta_postSelection, Z_pt, and Z_pt_postSelection.

                                                                      :
  src_muons(pset.getParameter<InputTag>("src")),
  dRVeto(pset.getUntrackedParameter<double>("veto")),
  dRTrk(pset.getUntrackedParameter<double>("deltaRTrk")),
  dREcal(pset.getUntrackedParameter<double>("deltaREcal")),
  dRHcal(pset.getUntrackedParameter<double>("deltaRHcal")),
  ptThreshold(pset.getUntrackedParameter<double>("ptThreshold")),
  etEcalThreshold(pset.getUntrackedParameter<double>("etEcalThreshold")),
  etHcalThreshold(pset.getUntrackedParameter<double>("etHcalThreshold")),
  alpha(pset.getUntrackedParameter<double>("alpha")),
  beta(pset.getUntrackedParameter<double>("beta")),
  pt(pset.getUntrackedParameter<double>("pt")),
  eta(pset.getUntrackedParameter<double>("eta")),
  iso_cut(pset.getUntrackedParameter<double>("isoCut")) {
  edm::Service<TFileService> fs;
  std::ostringstream str1,str2,str3,str4,str5,str6,str7,str8,str9,str10,n_tracks;
  str1 << "muons from Z with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk;
  str2 << "muons from W with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk;
  str3 << "muons from Others with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk;
  str4 << "muons from Z with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<" (alpha = "<<alpha<<" , "<<"beta = "<<beta<<" )";
  str5 << "muons from W with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<" (alpha = "<<alpha<<" , "<<"beta = "<<beta<<" )";
  str6 << "muons from Other with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<" (alpha = "<<alpha<<" , "<<"beta = "<<beta<<" )";
  n_tracks <<"Number of tracks for muon with p_{t} > " << ptThreshold <<" and #Delta R < "<<dRTrk<< " GeV/c";
  str7<<"Isolation Vs p_{t} with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<"(Tracker)";
  str8<<"Isolation Vs p_{t} with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<"(Ecal)";
  str9<<"Isolation Vs p_{t} with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<"(Hcal)";
  str10<<"Isolation Vs p_{t} with p_{t} > " << ptThreshold << " GeV/c"<<" and #Delta R < "<<dRTrk<<" (alpha = "<<alpha<<" , "<<"beta = "<<beta<<" )";
  h_IsoZ_tk = fs->make<TH1F>("ZIso_Tk",str1.str().c_str(),100,0.,20.);
  h_IsoW_tk = fs->make<TH1F>("WIso_Tk",str2.str().c_str(),100,0.,20.);
  h_IsoOther_tk = fs->make<TH1F>("otherIso_Tk",str3.str().c_str(),100,0.,20.);
  h_IsoZ_ecal = fs->make<TH1F>("ZIso_ecal",str1.str().c_str(),100,0.,20.);
  h_IsoW_ecal = fs->make<TH1F>("WIso_ecal",str2.str().c_str(),100,0.,20.);
  h_IsoOther_ecal = fs->make<TH1F>("otherIso_ecal",str3.str().c_str(),100,0.,20.);
  h_IsoZ_hcal = fs->make<TH1F>("ZIso_hcal",str1.str().c_str(),100,0.,20.);
  h_IsoW_hcal = fs->make<TH1F>("WIso_hcal",str2.str().c_str(),100,0.,20.);
  h_IsoOther_hcal = fs->make<TH1F>("otherIso_hcal",str3.str().c_str(),100,0.,20.);
  IsoZ = fs->make<TH1F>("ZIso",str4.str().c_str(),100,0.,20.);
  IsoW = fs->make<TH1F>("WIso",str5.str().c_str(),100,0.,20.);
  IsoOther = fs->make<TH1F>("otherIso",str6.str().c_str(),100,0.,20.);

 
  Z_eta = fs->make<TH1F>("Z_eta","#eta distribution for muons coming from Z",40,-eta,eta);
  W_eta = fs->make<TH1F>("W_eta","#eta distribution for muons coming from W",40,-eta,eta);
  Other_eta = fs->make<TH1F>("Other_eta","#eta distribution for muons coming from other",40,-eta,eta);
  Z_eta_postSelection = fs->make<TH1F>("Z_eta_postSelection","#eta distribution for muons coming from Z after iso selection",40,-eta,eta);
  W_eta_postSelection = fs->make<TH1F>("W_eta_postSelection","#eta distribution for muons coming from W after iso selection",40,-eta,eta);
  Other_eta_postSelection = fs->make<TH1F>("Other_eta_postSelection","#eta distribution for muons coming from other after iso selection",40,-eta,eta);
  
  Z_pt = fs->make<TH1F>("Z_pt","p_{T} distribution for muons coming from Z",40,pt,150.);
  W_pt = fs->make<TH1F>("W_pt","p_{T} distribution for muons coming from W",40,pt,150.);
  Other_pt = fs->make<TH1F>("Other_pt","p_{T} distribution for muons coming from other",40,pt,150.);
  Z_pt_postSelection = fs->make<TH1F>("Z_pt_postSelection","p_{T} distribution for muons coming from Z after iso selection",40,pt,150.);
  W_pt_postSelection = fs->make<TH1F>("W_pt_postSelection","p_{t} distribution for muons coming from W after iso selection",40,pt,150.);
  Other_pt_postSelection = fs->make<TH1F>("Other_pt_postSelection","p_{t} distribution for muons coming from other after iso selection",40,pt,150.);


  TkrPt = fs->make<TH1F>("TkrPt","IsoDeposit p distribution in the Tracker",100,0.,10.);
  EcalEt = fs->make<TH1F>("EcalEt","IsoDeposit E distribution in the Ecal",100,0.,5.);
  HcalEt = fs->make<TH1F>("HcalEt","IsoDeposit E distribution in the Hcal",100,0.,5.);

  EcalEtZ = fs->make<TH1F>("VetoEcalEt"," #Sigma E_{T} deposited in veto cone in the Ecal",100,0.,10.);
  HcalEtZ = fs->make<TH1F>("VetoHcalEt"," #Sigma E_{T} deposited in veto cone in the Hcal",100,0.,10.);
}

Member Function Documentation

void ZMuMuIsolationAnalyzer::analyze ( const edm::Event event,
const edm::EventSetup setup 
) [private, virtual]

Implements edm::EDAnalyzer.

Definition at line 192 of file ZMuMuIsolationAnalyzer.cc.

References abs, alpha, beta, reco::IsoDeposit::candEnergy(), reco::Candidate::daughter(), Deposits(), WZMuSkim_cff::dimuons, dREcal, dRHcal, dRTrk, dRVeto, EcalEt, EcalEtZ, pat::EcalIso, reco::LeafCandidate::eta(), eta, etEcalThreshold, etHcalThreshold, h_IsoOther_ecal, h_IsoOther_hcal, h_IsoOther_tk, h_IsoW_ecal, h_IsoW_hcal, h_IsoW_tk, h_IsoZ_ecal, h_IsoZ_hcal, h_IsoZ_tk, HcalEt, HcalEtZ, pat::HcalIso, histo(), i, iso_cut, pat::Lepton< LeptonType >::isoDeposit(), pat::GenericParticle::isoDeposit(), IsoOther, IsoW, IsoZ, reco::Candidate::masterClone(), siStripFEDMonitor_P5_cff::Max, muFromW, muFromZ, muTag(), Other_eta, Other_eta_postSelection, Other_pt, Other_pt_postSelection, reco::LeafCandidate::phi(), reco::LeafCandidate::pt(), pt, ptThreshold, src_muons, reco::IsoDeposit::sumWithin(), TkrPt, pat::TrackIso, W_eta, W_eta_postSelection, W_pt, W_pt_postSelection, Z_eta, Z_eta_postSelection, Z_pt, and Z_pt_postSelection.

                                                                                      {
  Handle<CandidateView> dimuons;
  event.getByLabel(src_muons,dimuons);

  for(unsigned int i=0; i < dimuons->size(); ++ i ) {
    const Candidate & zmm = (* dimuons)[i];
    const Candidate * dau0 = zmm.daughter(0);
    const Candidate * dau1 = zmm.daughter(1);
    const pat::Muon & mu0 = dynamic_cast<const pat::Muon &>(*dau0->masterClone());
    const pat::GenericParticle & mu1 = dynamic_cast<const pat::GenericParticle &>(*dau1->masterClone());

    const pat::IsoDeposit * muTrackIso =mu0.isoDeposit(pat::TrackIso);
    const pat::IsoDeposit * tkTrackIso =mu1.isoDeposit(pat::TrackIso);
    const pat::IsoDeposit * muEcalIso =mu0.isoDeposit(pat::EcalIso);
    const pat::IsoDeposit * tkEcalIso =mu1.isoDeposit(pat::EcalIso);
    const pat::IsoDeposit * muHcalIso =mu0.isoDeposit(pat::HcalIso);
    const pat::IsoDeposit * tkHcalIso =mu1.isoDeposit(pat::HcalIso);

   
    if(mu0.pt() > pt && mu1.pt() > pt && abs(mu0.eta()) < eta && abs(mu1.eta()) < eta){

      Direction muDir = Direction(mu0.eta(),mu0.phi());
      Direction tkDir = Direction(mu1.eta(),mu1.phi());

      IsoDeposit::AbsVetos vetos_mu;
      vetos_mu.push_back(new ConeVeto( muDir, dRVeto ));
      vetos_mu.push_back(new ThresholdVeto( ptThreshold ));

      reco::IsoDeposit::AbsVetos vetos_tk;
      vetos_tk.push_back(new ConeVeto( tkDir, dRVeto ));
      vetos_tk.push_back(new ThresholdVeto( ptThreshold ));
      
      reco::IsoDeposit::AbsVetos vetos_mu_ecal;
      vetos_mu_ecal.push_back(new ConeVeto( muDir, 0. ));
      vetos_mu_ecal.push_back(new ThresholdVeto( etEcalThreshold ));
      
      reco::IsoDeposit::AbsVetos vetos_tk_ecal;
      vetos_tk_ecal.push_back(new ConeVeto( tkDir, 0. ));
      vetos_tk_ecal.push_back(new ThresholdVeto( etEcalThreshold ));
      
      reco::IsoDeposit::AbsVetos vetos_mu_hcal;
      vetos_mu_hcal.push_back(new ConeVeto( muDir, 0. ));
      vetos_mu_hcal.push_back(new ThresholdVeto( etHcalThreshold ));
      
      reco::IsoDeposit::AbsVetos vetos_tk_hcal;
      vetos_tk_hcal.push_back(new ConeVeto( tkDir, 0. ));
      vetos_tk_hcal.push_back(new ThresholdVeto( etHcalThreshold ));
      MuTag tag_mu = muTag(mu0);
      MuTag tag_track = muTag(mu1);
     
      double  Tk_isovalue = TMath::Max(muTrackIso->sumWithin(dRTrk,vetos_mu),tkTrackIso->sumWithin(dRTrk, vetos_tk));
      double  Ecal_isovalue = TMath::Max(muEcalIso->sumWithin(dREcal,vetos_mu_ecal),tkEcalIso->sumWithin(dREcal, vetos_tk_ecal));
      double  Hcal_isovalue = TMath::Max(muHcalIso->sumWithin(dRHcal,vetos_mu_hcal),tkHcalIso->sumWithin(dRHcal, vetos_tk_hcal));
      EcalEtZ->Fill(muEcalIso->candEnergy());
      EcalEtZ->Fill(tkEcalIso->candEnergy());
      HcalEtZ->Fill(muHcalIso->candEnergy());
      HcalEtZ->Fill(tkHcalIso->candEnergy());

      double iso_value0 = alpha*((0.5*(1+beta)* muEcalIso->sumWithin(dREcal,vetos_mu_ecal) ) + (0.5*(1-beta)*muHcalIso->sumWithin(dRHcal,vetos_mu_hcal) ) ) +(1-alpha)*muTrackIso->sumWithin(dRTrk,vetos_mu);
      double iso_value1 = alpha*((0.5*(1+beta)* tkEcalIso->sumWithin(dREcal,vetos_tk_ecal) ) + (0.5*(1-beta)*tkHcalIso->sumWithin(dRHcal,vetos_tk_hcal) ) ) +(1-alpha)*tkTrackIso->sumWithin(dRTrk,vetos_tk);

      double iso_value=TMath::Max(iso_value0,iso_value1);

      if(tag_mu==muFromZ && tag_track==muFromZ){
        h_IsoZ_tk->Fill(Tk_isovalue);
        h_IsoZ_ecal->Fill(Ecal_isovalue);
        h_IsoZ_hcal->Fill(Hcal_isovalue);
        IsoZ->Fill(iso_value);

        Z_eta->Fill(mu0.eta());
        Z_eta->Fill(mu1.eta());
        Z_pt->Fill(mu0.pt());
        Z_pt->Fill(mu1.pt());

        if(iso_value0<iso_cut)  {
          Z_pt_postSelection->Fill(mu0.pt());
          Z_eta_postSelection->Fill(mu0.eta());
        }
        if(iso_value1<iso_cut){
          Z_pt_postSelection->Fill(mu1.pt());
          Z_eta_postSelection->Fill(mu1.eta());
        }

        Deposits(muTrackIso,dRTrk,TkrPt);
        Deposits(muEcalIso,dREcal,EcalEt);
        Deposits(muHcalIso,dRHcal,HcalEt);
        Deposits(tkTrackIso,dRTrk,TkrPt);
        Deposits(tkEcalIso,dREcal,EcalEt);
        Deposits(tkHcalIso,dRHcal,HcalEt);
      }
      if(tag_mu==muFromW || tag_track==muFromW){ 
        h_IsoW_tk->Fill(Tk_isovalue);
        h_IsoW_ecal->Fill(Ecal_isovalue);
        h_IsoW_hcal->Fill(Hcal_isovalue);
        IsoW->Fill(iso_value);

        W_eta->Fill(mu0.eta());
        W_eta->Fill(mu1.eta());
        W_pt->Fill(mu0.pt());
        W_pt->Fill(mu1.pt());

        if(iso_value0<iso_cut) {
          W_pt_postSelection->Fill(mu0.pt());
          W_eta_postSelection->Fill(mu0.eta());
        }
        if(iso_value1<iso_cut) {
          W_pt_postSelection->Fill(mu1.pt());
          W_eta_postSelection->Fill(mu1.eta());
        }

        Deposits(muTrackIso,dRTrk,TkrPt);
        Deposits(muEcalIso,dREcal,EcalEt);
        Deposits(muHcalIso,dRHcal,HcalEt);
        Deposits(tkTrackIso,dRTrk,TkrPt);
        Deposits(tkEcalIso,dREcal,EcalEt);
        Deposits(tkHcalIso,dRHcal,HcalEt);
      }
      else{
        h_IsoOther_tk->Fill(Tk_isovalue);
        h_IsoOther_ecal->Fill(Ecal_isovalue);
        h_IsoOther_hcal->Fill(Hcal_isovalue);
        IsoOther->Fill(iso_value);

        Other_eta->Fill(mu0.eta());
        Other_eta->Fill(mu1.eta());
        Other_pt->Fill(mu0.pt());
        Other_pt->Fill(mu1.pt());

        if(iso_value0<iso_cut) {
          Other_pt_postSelection->Fill(mu0.pt());
          Other_eta_postSelection->Fill(mu0.eta());
        }
        if(iso_value1<iso_cut) {
          Other_pt_postSelection->Fill(mu1.pt());
          Other_eta_postSelection->Fill(mu1.eta());
        }

        Deposits(muTrackIso,dRTrk,TkrPt);
        Deposits(muEcalIso,dREcal,EcalEt);
        Deposits(muHcalIso,dRHcal,HcalEt);
        Deposits(tkTrackIso,dRTrk,TkrPt);
        Deposits(tkEcalIso,dREcal,EcalEt);
        Deposits(tkHcalIso,dRHcal,HcalEt);
      }
    }
  }    

  histo(h_IsoZ_tk,"#Sigma p_{T}","Events");
  histo(h_IsoW_tk,"#Sigma p_{T}","Events");
  histo(h_IsoOther_tk,"#Sigma p_{T}","#Events");
  histo(h_IsoZ_ecal,"#Sigma E_{t}","Events");
  histo(h_IsoW_ecal,"#Sigma E_{t}","Events");
  histo(h_IsoOther_ecal,"#Sigma E_{t}","Events");
  histo(h_IsoZ_hcal,"#Sigma E_{t}","Events");
  histo(h_IsoW_hcal,"#Sigma E_{t}","Events");
  histo(h_IsoOther_hcal,"#Sigma E_{t}","Events");
  histo(TkrPt,"p ","");
  histo(EcalEt,"E ","");
  histo(HcalEt,"E ","");
  histo(HcalEtZ,"E_{T}","");
  histo(EcalEtZ,"E_{T}","");
}
void ZMuMuIsolationAnalyzer::Deposits ( const pat::IsoDeposit isodep,
double  dR_max,
TH1F *  hist 
) [private]

Definition at line 107 of file ZMuMuIsolationAnalyzer.cc.

References reco::IsoDeposit::begin(), reco::IsoDeposit::end(), and theta().

Referenced by analyze().

                                                                                         {
  for(IsoDeposit::const_iterator it= isodep->begin(); it!= isodep->end(); ++it){
    if(it->dR()<dR_max) {
      double theta= 2*(TMath::ATan(TMath::Exp(-(it->eta() ) ) ) );
      // double theta= 2;
      hist->Fill(it->value()/TMath::Sin(theta));
    }
  }
}
void ZMuMuIsolationAnalyzer::endJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 355 of file ZMuMuIsolationAnalyzer.cc.

                                    {
}
void ZMuMuIsolationAnalyzer::histo ( const TH1F *  hist,
const char *  cx,
const char *  cy 
) const [private]

Definition at line 117 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

                                                                                       {
  hist->GetXaxis()->SetTitle(cx);
  hist->GetYaxis()->SetTitle(cy);
  hist->GetXaxis()->SetTitleOffset(1);
  hist->GetYaxis()->SetTitleOffset(1.2);
  hist->GetXaxis()->SetTitleSize(0.04);
  hist->GetYaxis()->SetTitleSize(0.04);
  hist->GetXaxis()->SetLabelSize(0.03);
  hist->GetYaxis()->SetLabelSize(0.03);
}
template<typename T >
ZMuMuIsolationAnalyzer::MuTag ZMuMuIsolationAnalyzer::muTag ( const T mu) const [private]

Definition at line 69 of file ZMuMuIsolationAnalyzer.cc.

References abs, edm::Ref< C, T, F >::isNull(), reco::Candidate::mother(), L1TEmulatorMonitor_cff::p, and reco::Candidate::pdgId().

Referenced by analyze().

                                                                           {
  GenParticleRef p = mu.genParticleRef();
  if(p.isNull()){
    //   cout<<"genParticleRef is null "<<endl;
    return muFromOther;
}
  int sizem = p->numberOfMothers();
  if(sizem != 1) {
    //cout<<"number of mothers !=1 "<<endl;
 return muFromOther;
  }
  const Candidate * moth1 = p->mother();
  if(moth1 == 0) {
    return muFromOther;
    //cout<<"no mother "<<endl;
  }
  int pdgId1 = moth1->pdgId();
  if(abs(pdgId1)!=13){ 
    return muFromOther;
    //cout<<"mother is not a muon"<<endl;
  }
  const Candidate * moth2 = moth1->mother();
  if(moth2 == 0) {
    return muFromOther;
    //cout<<"no mother "<<endl;
}
  int pdgId2 = moth2->pdgId();
  if(pdgId2 == 23) {
    //cout<<" muon from Z"<<endl;
    return muFromZ;
  }
  if(abs(pdgId2)==24) return muFromW;
  else {
    //cout<<" muon from other"<<endl;
    return muFromOther;
  }
}

Member Data Documentation

Definition at line 45 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

double ZMuMuIsolationAnalyzer::beta [private]

Definition at line 45 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 43 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 43 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 43 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 42 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 53 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 54 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

double ZMuMuIsolationAnalyzer::eta [private]

Definition at line 46 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 44 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 44 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 50 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 51 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 49 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 50 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 51 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 49 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 50 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 51 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 49 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 53 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 54 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 47 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 52 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

TH1F * ZMuMuIsolationAnalyzer::IsoW [private]

Definition at line 52 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 52 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 56 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 57 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 58 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 59 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

double ZMuMuIsolationAnalyzer::pt [private]

Definition at line 46 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 44 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 41 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze().

Definition at line 53 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 56 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 57 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

TH1F * ZMuMuIsolationAnalyzer::W_pt [private]

Definition at line 58 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 59 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 56 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 57 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 58 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().

Definition at line 59 of file ZMuMuIsolationAnalyzer.cc.

Referenced by analyze(), and ZMuMuIsolationAnalyzer().