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00001 #include "AnalysisDataFormats/EWK/interface/WMuNuCandidate.h"
00002 #include "DataFormats/MuonReco/interface/Muon.h"
00003 #include "DataFormats/MuonReco/interface/MuonFwd.h"
00004 #include "DataFormats/TrackReco/interface/Track.h"
00005 
00006 using namespace edm;
00007 using namespace std;
00008 using namespace reco;
00009 
00010 WMuNuCandidate::WMuNuCandidate(){}
00011 
00012 WMuNuCandidate::WMuNuCandidate(edm::Ptr<reco::Muon> muon, edm::Ptr<reco::MET> met): muon_(muon), neutrino_(met)  
00013 {
00014       addDaughter(*muon,"Muon");
00015       addDaughter(*met,"Met");
00016       AddFourMomenta addP4;
00017       addP4.set(*this);
00018 
00019       //WARNING: W Candidates combine the information from a Muon with the (px,py) information of the MET as the Neutrino
00020       // --> There is no Pz information!!!!
00021       // Be very careful when using the default Candidate functions (.mass, .mt, .et, etc). They may not be what you are looking for :-).
00022 }
00023 
00024 WMuNuCandidate::~WMuNuCandidate()
00025 {
00026 }
00027 
00028 double WMuNuCandidate::eT() const{
00029  double e_t=0; 
00030      e_t=muon_->pt()+neutrino_->pt();
00031  return e_t; 
00032 }
00033 
00034 double WMuNuCandidate::massT() const{
00035       // Candidates have a mt() function which computes the tranverse mass from E & pz. 
00036       // As MET does not have pz information... WMuNuCandidates have an alternative function to compute the mt quantity
00037       // used in the WMuNu Inclusive analysis just from px, py
00038       double wpx=px(); double wpy=py();
00039       double mt = eT()*eT() - wpx*wpx - wpy*wpy;
00040       mt = (mt>0) ? sqrt(mt) : 0;
00041       return mt; 
00042 }
00043 
00044 double WMuNuCandidate::acop() const{
00045       // Acoplanarity between the muon and the MET
00046        Geom::Phi<double> deltaphi(daughter(0)->phi()-daughter(1)->phi());
00047        double acop = deltaphi.value();
00048        if (acop<0) acop = - acop;
00049        acop = M_PI - acop;
00050        return acop;
00051 }