1 | #ifndef _SMEARUTIL_H_
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2 | #define _SMEARUTIL_H_
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3 |
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4 | /*
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5 | ---- Delphes ----
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6 | A Fast Simulator for general purpose LHC detector
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7 | S. Ovyn ~~~~ severine.ovyn@uclouvain.be
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8 |
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9 | Center for Particle Physics and Phenomenology (CP3)
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10 | Universite Catholique de Louvain (UCL)
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11 | Louvain-la-Neuve, Belgium
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12 | */
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13 |
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14 | /// \file SmearUtil.h
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15 | /// \brief RESOLution class, and some generic definitions
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16 |
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17 |
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18 | #include <vector>
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19 | #include "TLorentzVector.h"
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20 |
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21 | #include "Utilities/ExRootAnalysis/interface/BlockClasses.h"
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22 | #include "Utilities/ExRootAnalysis/interface/TSimpleArray.h"
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23 |
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24 | #include "Utilities/Fastjet/plugins/CDFCones/interface/PhysicsTower.hh"
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25 |
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26 | #include <iostream>
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27 | #include <sstream>
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28 | #include <fstream>
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29 | #include <iomanip>
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30 |
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31 | using namespace std;
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32 |
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33 | class ParticleUtil {
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34 |
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35 | public:
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36 | ParticleUtil(const TLorentzVector &genMomentum,const int &pid) : TLVector(genMomentum) , Pid(pid) {}
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37 |
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38 | float E() {return TLVector.E();} // particle energy [GeV]
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39 | float Px() {return TLVector.Px();} // horizontal coordinate of momentum [GeV]
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40 | float Py() {return TLVector.Py();} // vertical coordinate of momentum [GeV]
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41 | float Pz() {return TLVector.Pz();} // longitudinal coordinate of momentum [GeV]
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42 | float Pt() {return TLVector.Pt();} // transverse momentum [GeV]
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43 | float Eta() {return TLVector.Eta();} // pseudorapidity [GeV]
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44 | float Phi() {return TLVector.Phi();} // azimuthal angle [GeV]
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45 | float PID() {return Pid;} // particle energy in [GeV]
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46 |
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47 | private:
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48 | TLorentzVector TLVector;
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49 | int Pid;
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50 | };
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51 |
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52 |
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53 | class RESOLution
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54 | {
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55 | public:
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56 | /// Constructor
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57 | RESOLution();
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58 |
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59 | // Detector coverage
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60 | float CEN_max_tracker; // tracker pseudorapidity coverage
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61 | float CEN_max_calo_cen; // central calorimeter pseudorapidity coverage
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62 | float CEN_max_calo_fwd; // forward calorimeter pseudorapidity coverage
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63 | float CEN_max_mu; // muon chambers pseudorapidity coverage
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64 |
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65 | float VFD_min_calo_vfd; // very forward calorimeter pseudorapidity coverage
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66 | float VFD_max_calo_vfd; // very forward calorimeter pseudorapidity coverage
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67 | float VFD_min_zdc; // coverage for Zero Degree Calorimeter, for photons and neutrons
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68 | float VFD_s_zdc; // distance of the Zero Degree Calorimeter, from the Interaction poin, in [m]
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69 |
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70 | float RP_220_s; // distance of the RP to the IP, in meters
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71 | float RP_220_x; // distance of the RP to the beam, in meters
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72 | float RP_420_s; // distance of the RP to the IP, in meters
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73 | float RP_420_x; // distance of the RP to the beam, in meters
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74 |
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75 |
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76 | //energy resolution for electron/photon
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77 | // \sigma/E = C + N/E + S/\sqrt{E}
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78 | float ELG_Scen; // S term for central ECAL
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79 | float ELG_Ncen; // N term for central ECAL
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80 | float ELG_Ccen; // C term for central ECAL
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81 | float ELG_Sfwd; // S term for forward ECAL
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82 | float ELG_Cfwd; // C term for forward ECAL
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83 | float ELG_Nfwd; // N term for central ECAL
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84 |
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85 | //energy resolution for hadrons in ecal/hcal/hf
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86 | // \sigma/E = C + N/E + S/\sqrt{E}
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87 | float HAD_Shcal; // S term for central HCAL // hadronic calorimeter
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88 | float HAD_Nhcal; // N term for central HCAL
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89 | float HAD_Chcal; // C term for central HCAL
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90 | float HAD_Shf; // S term for central HF // forward calorimeter
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91 | float HAD_Nhf; // N term for central HF
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92 | float HAD_Chf; // C term for central HF
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93 |
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94 | // muon smearing
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95 | float MU_SmearPt;
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96 |
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97 | //Magnetic Field information
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98 | int TRACK_radius; //radius of the BField coverage
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99 | int TRACK_length; //length of the BField coverage
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100 | float TRACK_bfield_x;
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101 | float TRACK_bfield_y;
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102 | float TRACK_bfield_z;
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103 | float TRACK_ptmin; // minimal pt needed to reach the calorimeter, in GeV
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104 | int TRACK_eff; // in percent, should be an integer
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105 |
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106 |
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107 | //Define Calorimetric towers
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108 | unsigned int TOWER_number;
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109 | float * TOWER_eta_edges;
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110 | float * TOWER_dphi;
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111 |
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112 | //thresholds for reconstructed objetcs
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113 | float PTCUT_elec;
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114 | float PTCUT_muon;
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115 | float PTCUT_jet;
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116 | float PTCUT_gamma;
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117 | float PTCUT_taujet;
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118 |
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119 | //General jet variable
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120 | double JET_coneradius;
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121 | int JET_jetalgo;
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122 | double JET_seed;
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123 | double JET_overlap;
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124 |
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125 | // MidPoint algorithm definition
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126 | double JET_M_coneareafraction;
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127 | int JET_M_maxpairsize;
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128 | int JET_M_maxiterations;
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129 | // Define Cone algorithm.
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130 | int JET_C_adjacencycut;
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131 | int JET_C_maxiterations;
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132 | int JET_C_iratch;
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133 | //Define SISCone algorithm.
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134 | int JET_S_npass;
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135 | double JET_S_protojet_ptmin;
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136 |
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137 | //For Tau-jet definition
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138 | // R = sqrt (phi^2 + eta^2)
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139 | float TAU_energy_scone; // radius R of the cone for tau definition, based on energy threshold
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140 | float TAU_track_scone; // radius R of the cone for tau definition, based on track number
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141 | float TAU_track_pt; // minimal pt [GeV] for tracks to be considered in tau definition
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142 | float TAU_energy_frac; // fraction of energy required in the central part of the cone, for tau jets
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143 |
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144 | //tagging definition
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145 | int BTAG_b;
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146 | int BTAG_mistag_c;
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147 | int BTAG_mistag_l;
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148 |
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149 |
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150 | //trigger flag
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151 | int FLAG_trigger; //flag for trigger
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152 | int FLAG_frog; //flag for frog display
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153 | int FLAG_bfield; //flag for bfield propagation
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154 | int FLAG_vfd; //flag for very forward detector
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155 |
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156 | int NEvents_Frog;
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157 |
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158 |
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159 |
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160 |
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161 |
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162 | float PT_QUARKS_MIN; // minimal pt needed for quarks to reach the tracker, in GeV
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163 |
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164 | // to sort a vector
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165 | void SortedVector(vector<ParticleUtil> &vect);
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166 |
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167 | /// Reads the data card for the initialisation of the parameters
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168 | void ReadDataCard(const string datacard);
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169 |
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170 | /// Create the output log file
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171 | void Logfile(string LogName);
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172 |
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173 | /// Provides the smeared TLorentzVector for the electrons
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174 | void SmearElectron(TLorentzVector &electron);
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175 |
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176 | /// Provides the smeared TLorentzVector for the muons
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177 | void SmearMu(TLorentzVector &muon);
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178 |
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179 | /// Provides the smeared TLorentzVector for the hadrons
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180 | void SmearHadron(TLorentzVector &hadron, const float frac);
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181 |
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182 | //*****************************fonction pour avoir les taus************************************
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183 | double EnergySmallCone(const vector<PhysicsTower> &towers, const float eta, const float phi);
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184 |
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185 | //***************** Fonction pour avoir le nombre de traces pour les taus****************************
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186 | unsigned int NumTracks(const vector<TLorentzVector> &tracks, const float pt_track, const float eta, const float phi);
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187 |
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188 | //**********************fonction pour avoir les b-jets******************************
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189 | int Bjets(const TSimpleArray<TRootGenParticle> &subarray, const float eta, const float phi);
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190 |
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191 | //******************** retourne l'efficacite de b-tagging ******************************
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192 | bool Btaggedjet(const TLorentzVector &JET, const TSimpleArray<TRootGenParticle> &subarray);
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193 |
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194 | //******************************isolation criteria**************************************
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195 | bool Isolation(Float_t phi,Float_t eta,const vector<TLorentzVector> &tracks,float PT_TRACK2);
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196 |
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197 | //********************* returns a segmented value for eta and phi, for calo towers *****
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198 | void BinEtaPhi(const float phi, const float eta, float& iPhi, float& iEta);
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199 |
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200 | };
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201 |
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202 |
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203 | // particles PID (PDG ID)
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204 | const int pU = 1; // c quark
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205 | const int pD = 2; // b quark
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206 | const int pS = 3; // s quark
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207 | const int pC = 4; // c quark
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208 | const int pB = 5; // b quark
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209 | const int pE = 11; // e
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210 | const int pNU1 = 12; // nu_e
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211 | const int pMU = 13; // mu
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212 | const int pNU2 = 14; // nu_mu
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213 | const int pTAU = 15; // tau
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214 | const int pNU3 = 16; // nu_tau
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215 | const int pGLUON = 21; // gluon
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216 | const int pGAMMA = 22; // gamma
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217 | const int pW = 24; // W
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218 | const int pP = 2212; // proton
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219 | const int pN = 2112; // neutron
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220 | const int pPI0 = 111; // pi_0
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221 | const int pK0L = 130; // K^0_L
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222 | const int pK0S = 310; // K^0_S
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223 | const int pLAMBDA = 3122; // Lambda
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224 | const int pSIGMA0 = 3212; // Sigma^0
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225 | const int pDELTA0 = 2114; // Delta^0
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226 |
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227 | const double speed_of_light = 299792458; // m/s
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228 |
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229 | #ifndef __PI__
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230 | #define __PI__
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231 | const double PI = acos(-1.0);
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232 | #endif
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233 |
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234 | // ** returns the sign (+1 or -1) or an integer
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235 | int sign(const int myint);
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236 | int sign(const float myfloat);
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237 |
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238 | // **************************** Return the Delta Phi****************************
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239 | float DeltaPhi(const float phi1, const float phi2);
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240 |
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241 | // **************************** Returns the Delta R****************************
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242 | float DeltaR(const float phi1, const float eta1, const float phi2, const float eta2);
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243 |
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244 | //************* Returns an array of the quarks sitting within the tracker acceptance ***************
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245 | int Charge(const int pid);
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246 |
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247 | #endif
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