[2] | 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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[11] | 24 | #include "Utilities/Fastjet/plugins/CDFCones/interface/PhysicsTower.hh"
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[2] | 25 | using namespace std;
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| 26 |
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| 27 | class RESOLution
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| 28 | {
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| 29 | public:
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| 30 | /// Constructor
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| 31 | RESOLution();
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| 32 |
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| 33 | // Detector coverage
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| 34 | float MAX_TRACKER; // tracker pseudorapidity coverage
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| 35 | float MAX_CALO_CEN; // central calorimeter pseudorapidity coverage
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| 36 | float MAX_CALO_FWD; // forward calorimeter pseudorapidity coverage
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| 37 | float MAX_MU; // muon chambers pseudorapidity coverage
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| 38 | float MIN_CALO_VFWD; // very forward calorimeter pseudorapidity coverage
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| 39 | float MAX_CALO_VFWD; // very forward calorimeter pseudorapidity coverage
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| 40 | float MIN_ZDC; // coverage for Zero Degree Calorimeter, for photons and neutrons
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| 41 |
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| 42 | float ZDC_S; // distance of the Zero Degree Calorimeter, from the Interaction poin, in [m]
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| 43 | float RP220_S; // distance of the RP to the IP, in meters
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| 44 | float RP220_X; // distance of the RP to the beam, in meters
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| 45 | float FP420_S; // distance of the RP to the IP, in meters
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| 46 | float FP420_X; // distance of the RP to the beam, in meters
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| 47 |
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[62] | 48 | //Magnetic Field information
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| 49 | int TRACKING_RADIUS; //radius of the BField coverage
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| 50 | int TRACKING_LENGTH; //length of the BField coverage
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| 51 | float BFIELD_X;
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| 52 | float BFIELD_Y;
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| 53 | float BFIELD_Z;
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| 54 |
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[2] | 55 |
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| 56 | //energy resolution for electron/photon
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| 57 | // \sigma/E = C + N/E + S/\sqrt{E}
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| 58 | float ELG_Scen; // S term for central ECAL
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| 59 | float ELG_Ncen; // N term for central ECAL
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| 60 | float ELG_Ccen; // C term for central ECAL
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| 61 | float ELG_Sfwd; // S term for forward ECAL
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| 62 | float ELG_Cfwd; // C term for forward ECAL
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| 63 | float ELG_Nfwd; // N term for central ECAL
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| 64 |
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| 65 | //energy resolution for hadrons in ecal/hcal/hf
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| 66 | // \sigma/E = C + N/E + S/\sqrt{E}
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| 67 | float HAD_Shcal; // S term for central HCAL // hadronic calorimeter
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| 68 | float HAD_Nhcal; // N term for central HCAL
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| 69 | float HAD_Chcal; // C term for central HCAL
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| 70 | float HAD_Shf; // S term for central HF // forward calorimeter
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| 71 | float HAD_Nhf; // N term for central HF
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| 72 | float HAD_Chf; // C term for central HF
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| 73 |
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| 74 | // muon smearing
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| 75 | float MU_SmearPt;
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[33] | 76 |
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| 77 | //threshold for reconstructed objetcs
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| 78 | float ELEC_pt;
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| 79 | float MUON_pt;
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| 80 | float JET_pt;
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| 81 | float TAUJET_pt;
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| 82 |
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[2] | 83 | //For Tau-jet definition
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| 84 | // R = sqrt (phi^2 + eta^2)
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| 85 | float TAU_CONE_ENERGY; // radius R of the cone for tau definition, based on energy threshold
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| 86 | float TAU_CONE_TRACKS; // radius R of the cone for tau definition, based on track number
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| 87 | float PT_TRACK_TAU; // minimal pt [GeV] for tracks to be considered in tau definition
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| 88 | float TAU_EM_COLLIMATION; // fraction of energy required in the central part of the cone, for tau jets
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| 89 |
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| 90 | // Tracker acceptance
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| 91 | float PT_TRACKS_MIN; // minimal pt needed to reach the calorimeter, in GeV
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| 92 | float PT_QUARKS_MIN; // minimal pt needed for quarks to reach the tracker, in GeV
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| 93 | int TRACKING_EFF; // in percent, should be an integer
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| 94 |
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| 95 | //tagging definition
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| 96 | int TAGGING_B; //
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| 97 | int MISTAGGING_C;
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| 98 | int MISTAGGING_L;
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| 99 |
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| 100 | double CONERADIUS;
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| 101 | int JETALGO;
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[43] | 102 |
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| 103 | //General jet variable
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| 104 | double SEEDTHRESHOLD;
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| 105 | double OVERLAPTHRESHOLD;
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| 106 |
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[2] | 107 | // MidPoint algorithm definition
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| 108 | double M_CONEAREAFRACTION;
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| 109 | int M_MAXPAIRSIZE;
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| 110 | int M_MAXITERATIONS;
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| 111 |
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| 112 | // Define Cone algorithm.
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| 113 | int C_ADJACENCYCUT;
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| 114 | int C_MAXITERATIONS;
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| 115 | int C_IRATCH;
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| 116 |
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[44] | 117 | //Define SISCone algorithm.
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| 118 | int NPASS;
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| 119 | double PROTOJET_PTMIN;
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| 120 |
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| 121 |
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[2] | 122 | /// Reads the data card for the initialisation of the parameters
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| 123 | void ReadDataCard(const string datacard);
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[44] | 124 |
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| 125 | /// Create the output log file
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| 126 | void Logfile(string LogName);
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[2] | 127 |
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| 128 | /// Provides the smeared TLorentzVector for the electrons
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| 129 | void SmearElectron(TLorentzVector &electron);
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| 130 |
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| 131 | /// Provides the smeared TLorentzVector for the muons
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| 132 | void SmearMu(TLorentzVector &muon);
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| 133 |
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| 134 | /// Provides the smeared TLorentzVector for the hadrons
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| 135 | void SmearHadron(TLorentzVector &hadron, const float frac);
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| 136 |
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| 137 | //*****************************fonction pour avoir les taus************************************
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| 138 | double EnergySmallCone(const vector<PhysicsTower> &towers, const float eta, const float phi);
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| 139 |
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| 140 | //***************** Fonction pour avoir le nombre de traces pour les taus****************************
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| 141 | unsigned int NumTracks(const vector<TLorentzVector> &tracks, const float pt_track, const float eta, const float phi);
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| 142 |
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| 143 | //**********************fonction pour avoir les b-jets******************************
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| 144 | int Bjets(const TSimpleArray<TRootGenParticle> &subarray, const float eta, const float phi);
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| 145 |
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| 146 | //******************** retourne l'efficacite de b-tagging ******************************
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| 147 | bool Btaggedjet(const TLorentzVector &JET, const TSimpleArray<TRootGenParticle> &subarray);
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| 148 |
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[31] | 149 | //******************************isolation criteria**************************************
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| 150 | bool Isolation(Float_t phi,Float_t eta,const vector<TLorentzVector> &tracks,float PT_TRACK2);
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| 151 |
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[2] | 152 | };
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| 153 |
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| 154 |
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| 155 | // particles PID (PDG ID)
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| 156 | const int pU = 1; // c quark
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| 157 | const int pD = 2; // b quark
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| 158 | const int pS = 3; // s quark
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| 159 | const int pC = 4; // c quark
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| 160 | const int pB = 5; // b quark
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| 161 | const int pE = 11; // e
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| 162 | const int pNU1 = 12; // nu_e
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| 163 | const int pMU = 13; // mu
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| 164 | const int pNU2 = 14; // nu_mu
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| 165 | const int pTAU = 15; // tau
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| 166 | const int pNU3 = 16; // nu_tau
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| 167 | const int pGLUON = 21; // gluon
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| 168 | const int pGAMMA = 22; // gamma
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| 169 | const int pW = 24; // W
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| 170 | const int pP = 2212; // proton
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| 171 | const int pN = 2112; // neutron
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| 172 | const int pPI0 = 111; // pi_0
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| 173 | const int pK0L = 130; // K^0_L
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| 174 | const int pK0S = 310; // K^0_S
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| 175 | const int pLAMBDA = 3122; // Lambda
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| 176 | const int pSIGMA0 = 3212; // Sigma^0
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| 177 | const int pDELTA0 = 2114; // Delta^0
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| 178 |
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| 179 | const double speed_of_light = 299792458; // m/s
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| 180 |
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| 181 | #ifndef __PI__
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| 182 | #define __PI__
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| 183 | const double PI = acos(-1.0);
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| 184 | #endif
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| 185 |
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| 186 | // ** returns the sign (+1 or -1) or an integer
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| 187 | int sign(const int myint);
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| 188 | int sign(const float myfloat);
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| 189 |
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| 190 | // **************************** Return the Delta Phi****************************
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| 191 | float DeltaPhi(const float phi1, const float phi2);
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| 192 |
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| 193 | // **************************** Returns the Delta R****************************
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| 194 | float DeltaR(const float phi1, const float eta1, const float phi2, const float eta2);
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| 195 |
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| 196 | //************* Returns an array of the quarks sitting within the tracker acceptance ***************
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[55] | 197 | int Charge(int pid);
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[2] | 198 |
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| 199 | #endif
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