| 1 | /***********************************************************************
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| 2 | ** **
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| 3 | ** /----------------------------------------------\ **
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| 4 | ** | Delphes, a framework for the fast simulation | **
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| 5 | ** | of a generic collider experiment | **
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| 6 | ** \----------------------------------------------/ **
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| 7 | ** **
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| 8 | ** **
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| 9 | ** This package uses: **
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| 10 | ** ------------------ **
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| 11 | ** FastJet algorithm: Phys. Lett. B641 (2006) [hep-ph/0512210] **
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| 12 | ** Hector: JINST 2:P09005 (2007) [physics.acc-ph:0707.1198v2] **
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| 13 | ** FROG: [hep-ex/0901.2718v1] **
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| 14 | ** **
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| 15 | ** ------------------------------------------------------------------ **
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| 16 | ** **
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| 17 | ** Main authors: **
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| 18 | ** ------------- **
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| 19 | ** **
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| 20 | ** Severine Ovyn Xavier Rouby **
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| 21 | ** severine.ovyn@uclouvain.be xavier.rouby@cern **
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| 22 | ** **
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| 23 | ** Center for Particle Physics and Phenomenology (CP3) **
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| 24 | ** Universite catholique de Louvain (UCL) **
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| 25 | ** Louvain-la-Neuve, Belgium **
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| 26 | ** **
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| 27 | ** Copyright (C) 2008-2009, **
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| 28 | ** All rights reserved. **
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| 29 | ** **
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| 30 | ***********************************************************************/
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| 31 |
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| 32 | #include "JetsUtil.h"
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| 33 |
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| 34 | using namespace std;
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| 35 |
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| 36 | JetsUtil::JetsUtil() : plugins(NULL) {
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| 37 | DET = new RESOLution();
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| 38 | init();
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| 39 | }
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| 40 |
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| 41 |
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| 42 | JetsUtil::JetsUtil(const string & DetDatacard) : plugins(NULL) {
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| 43 | DET = new RESOLution();
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| 44 | DET->ReadDataCard(DetDatacard);
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| 45 | init();
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| 46 | }
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| 47 |
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| 48 |
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| 49 | JetsUtil::JetsUtil(const RESOLution * DetDatacard) : plugins(NULL) {
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| 50 | DET = new RESOLution(*DetDatacard);
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| 51 | init();
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| 52 | }
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| 53 |
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| 54 |
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| 55 | JetsUtil::JetsUtil(const JetsUtil& jet){
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| 56 | DET = new RESOLution(*(jet.DET));
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| 57 | }
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| 58 |
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| 59 | JetsUtil& JetsUtil::operator=(const JetsUtil& jet) {
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| 60 | if(this==&jet) return *this;
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| 61 | DET = new RESOLution(*(jet.DET));
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| 62 | return *this;
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| 63 | }
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| 64 |
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| 65 | void JetsUtil::init() {
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| 66 | if(plugins) delete plugins;
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| 67 |
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| 68 | switch(DET->JET_jetalgo) {
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| 69 | default:
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| 70 | case 1: {
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| 71 | // set up a CDF midpoint jet definition
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| 72 | #ifdef ENABLE_PLUGIN_CDFCONES
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| 73 | plugins = new fastjet::CDFJetCluPlugin(DET->JET_seed,DET->JET_coneradius,DET->JET_C_adjacencycut,DET->JET_C_maxiterations,DET->JET_C_iratch,DET->JET_overlap);
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| 74 | jet_def = fastjet::JetDefinition(plugins);
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| 75 | #else
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| 76 | plugins = NULL;
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| 77 | #endif
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| 78 | }
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| 79 | break;
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| 80 |
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| 81 | case 2: {
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| 82 | // set up a CDF midpoint jet definition
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| 83 | #ifdef ENABLE_PLUGIN_CDFCONES
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| 84 | plugins = new fastjet::CDFMidPointPlugin (DET->JET_seed,DET->JET_coneradius,DET->JET_M_coneareafraction,DET->JET_M_maxpairsize,DET->JET_M_maxiterations,DET->JET_overlap);
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| 85 | jet_def = fastjet::JetDefinition(plugins);
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| 86 | #else
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| 87 | plugins = NULL;
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| 88 | #endif
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| 89 | }
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| 90 | break;
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| 91 |
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| 92 | case 3: {
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| 93 | // set up a siscone jet definition
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| 94 | #ifdef ENABLE_PLUGIN_SISCONE
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| 95 | plugins = new fastjet::SISConePlugin (DET->JET_coneradius,DET->JET_overlap,DET->JET_S_npass, DET->JET_S_protojet_ptmin);
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| 96 | jet_def = fastjet::JetDefinition(plugins);
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| 97 | #else
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| 98 | plugins = NULL;
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| 99 | #endif
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| 100 | }
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| 101 | break;
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| 102 |
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| 103 | case 4: {
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| 104 |
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| 105 | jet_def = fastjet::JetDefinition(fastjet::kt_algorithm, DET->JET_coneradius);
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| 106 | }
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| 107 | break;
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| 108 |
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| 109 | case 5: {
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| 110 | jet_def = fastjet::JetDefinition(fastjet::cambridge_algorithm,DET->JET_coneradius);
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| 111 | }
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| 112 | break;
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| 113 |
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| 114 | case 6: {
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| 115 | jet_def = fastjet::JetDefinition(fastjet::antikt_algorithm,DET->JET_coneradius);
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| 116 | }
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| 117 | break;
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| 118 | }
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| 119 |
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| 120 | }
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| 121 |
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| 122 | vector<fastjet::PseudoJet> JetsUtil::RunJets(const vector<fastjet::PseudoJet>& input_particles, const vector<TRootTracks> & TrackCentral, vector<int> &NTrackJet)
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| 123 | {
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| 124 | inclusive_jets.clear();
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| 125 | sorted_jets.clear();
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| 126 | // run the jet clustering with the above jet definition
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| 127 | if(input_particles.size()!=0)
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| 128 | {
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| 129 | fastjet::ClusterSequence clust_seq(input_particles, jet_def);
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| 130 | // extract the inclusive jets with pt > 5 GeV
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| 131 | double ptmin = 5.0;
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| 132 | inclusive_jets = clust_seq.inclusive_jets(ptmin);
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| 133 |
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| 134 | // sort jets into increasing pt
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| 135 | sorted_jets = sorted_by_pt(inclusive_jets);
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| 136 |
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| 137 | //check number of tracks in jets
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| 138 | float iEtaTrack[TrackCentral.size()];
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| 139 | float iPhiTrack[TrackCentral.size()];
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| 140 | for(unsigned int t = 0; t < TrackCentral.size(); t++)
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| 141 | {
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| 142 | DET->BinEtaPhi(TrackCentral[t].PhiOuter,TrackCentral[t].EtaOuter,iPhiTrack[t],iEtaTrack[t]);
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| 143 | }
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| 144 | int numTrackJet;
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| 145 | for (unsigned int i = 0; i < sorted_jets.size(); i++)
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| 146 | {
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| 147 | numTrackJet=0;
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| 148 | vector<fastjet::PseudoJet> constituents = clust_seq.constituents(sorted_jets[i]);
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| 149 | for(unsigned int it = 0; it < TrackCentral.size(); it++)
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| 150 | {
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| 151 | for (unsigned int j = 0; j < constituents.size(); j++)
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| 152 | {
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| 153 | if(DeltaR(iPhiTrack[it], iEtaTrack[it], constituents[j].phi(), constituents[j].eta())<0.001)numTrackJet++;
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| 154 | }
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| 155 | }
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| 156 | NTrackJet.push_back(numTrackJet);
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| 157 | }
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| 158 | }
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| 159 |
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| 160 | return sorted_jets;
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| 161 | }
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| 162 |
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| 163 |
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| 164 |
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| 165 | void JetsUtil::RunJetBtagging(ExRootTreeWriter *treeWriter, ExRootTreeBranch *branchJet,const vector<fastjet::PseudoJet> & sorted_jets,const TSimpleArray<TRootGenParticle>& NFCentralQ, const vector<int> &NTrackJet)
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| 166 | {
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| 167 | TRootJet *elementJet;
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| 168 | TLorentzVector JET;
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| 169 | for (unsigned int i = 0; i < sorted_jets.size(); i++) {
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| 170 |
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| 171 | JET.SetPxPyPzE(sorted_jets[i].px(),sorted_jets[i].py(),sorted_jets[i].pz(),sorted_jets[i].E());
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| 172 | if(JET.Pt() > DET->PTCUT_jet)
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| 173 | {
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| 174 | elementJet = (TRootJet*) branchJet->NewEntry();
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| 175 | elementJet->Set(JET);
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| 176 | elementJet->NTracks = NTrackJet[i];
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| 177 |
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| 178 | // b-jets
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| 179 | bool btag=false;
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| 180 | if((fabs(JET.Eta()) < DET->CEN_max_tracker && DET->Btaggedjet(JET, NFCentralQ)))btag=true;
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| 181 | elementJet->Btag = btag;
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| 182 | }
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| 183 | } // for itJet : loop on all jets
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| 184 |
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| 185 | }
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| 186 |
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| 187 | void JetsUtil::RunTauJets(ExRootTreeWriter *treeWriter, ExRootTreeBranch *branchTauJet,const vector<fastjet::PseudoJet> & sorted_jets,const vector<PhysicsTower> & towers, const vector<TRootTracks> & TrackCentral, const vector<int> &NTrackJet)
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| 188 | {
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| 189 | TRootTauJet *elementTauJet;
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| 190 | TLorentzVector JET;
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| 191 | float charge=0;
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| 192 | for (unsigned int i = 0; i < sorted_jets.size(); i++) {
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| 193 | JET.SetPxPyPzE(sorted_jets[i].px(),sorted_jets[i].py(),sorted_jets[i].pz(),sorted_jets[i].E());
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| 194 | // Tau jet identification : 1! track and electromagnetic collimation
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| 195 | if(fabs(JET.Eta()) < (DET->CEN_max_tracker - DET->TAU_track_scone)) {
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| 196 | double Energie_tau_central = DET->EnergySmallCone(towers,JET.Eta(),JET.Phi());
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| 197 | if(
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| 198 | ( Energie_tau_central/JET.E() > DET->TAU_energy_frac ) &&
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| 199 | //( DET->NumTracks(charge,TrackCentral,DET->TAU_track_pt,JET.Eta(),JET.Phi(),DET->TAU_track_scone) == 1 ) &&
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| 200 | ( DET->NumTracks(charge,TrackCentral,DET->TAU_track_pt,JET.Eta(),JET.Phi()) == 1 ) &&
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| 201 | ( JET.Pt() > DET->PTCUT_taujet)
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| 202 | ) {
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| 203 | elementTauJet = (TRootTauJet*) branchTauJet->NewEntry();
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| 204 | elementTauJet->Set(JET);
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| 205 | elementTauJet->NTracks=NTrackJet[i];
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| 206 | elementTauJet->Charge = charge;
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| 207 | } // if tau jet
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| 208 | } // if JET.eta < tracker - tau_cone : Tau jet identification
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| 209 |
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| 210 | } // for itJet : loop on all jets
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| 211 |
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| 212 |
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| 213 | }
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| 214 |
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