1 | /*
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2 | * Delphes: a framework for fast simulation of a generic collider experiment
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3 | * Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
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4 | *
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5 | * This program is free software: you can redistribute it and/or modify
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6 | * it under the terms of the GNU General Public License as published by
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7 | * the Free Software Foundation, either version 3 of the License, or
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8 | * (at your option) any later version.
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9 | *
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10 | * This program is distributed in the hope that it will be useful,
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11 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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12 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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13 | * GNU General Public License for more details.
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14 | *
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15 | * You should have received a copy of the GNU General Public License
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16 | * along with this program. If not, see <http://www.gnu.org/licenses/>.
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17 | */
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18 |
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19 |
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20 | /** \class ParticlePropagator
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21 | *
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22 | * Propagates charged and neutral particles
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23 | * from a given vertex to a cylinder defined by its radius,
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24 | * its half-length, centered at (0,0,0) and with its axis
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25 | * oriented along the z-axis.
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26 | *
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27 | * \author P. Demin - UCL, Louvain-la-Neuve
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28 | *
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29 | */
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30 |
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31 | #include "modules/ParticlePropagator.h"
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32 |
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33 | #include "classes/DelphesClasses.h"
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34 | #include "classes/DelphesFactory.h"
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35 | #include "classes/DelphesFormula.h"
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36 |
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37 | #include "ExRootAnalysis/ExRootResult.h"
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38 | #include "ExRootAnalysis/ExRootFilter.h"
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39 | #include "ExRootAnalysis/ExRootClassifier.h"
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40 |
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41 | #include "TMath.h"
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42 | #include "TString.h"
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43 | #include "TFormula.h"
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44 | #include "TRandom3.h"
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45 | #include "TObjArray.h"
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46 | #include "TDatabasePDG.h"
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47 | #include "TLorentzVector.h"
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48 |
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49 | #include <algorithm>
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50 | #include <stdexcept>
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51 | #include <iostream>
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52 | #include <sstream>
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53 |
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54 | using namespace std;
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55 |
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56 | //------------------------------------------------------------------------------
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57 |
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58 | ParticlePropagator::ParticlePropagator() :
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59 | fItInputArray(0)
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60 | {
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61 | }
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62 |
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63 | //------------------------------------------------------------------------------
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64 |
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65 | ParticlePropagator::~ParticlePropagator()
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66 | {
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67 | }
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68 |
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69 | //------------------------------------------------------------------------------
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70 |
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71 | void ParticlePropagator::Init()
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72 | {
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73 | fRadius = GetDouble("Radius", 1.0);
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74 | fRadius2 = fRadius*fRadius;
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75 | fHalfLength = GetDouble("HalfLength", 3.0);
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76 | fBz = GetDouble("Bz", 0.0);
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77 | if(fRadius < 1.0E-2)
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78 | {
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79 | cout << "ERROR: magnetic field radius is too low\n";
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80 | return;
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81 | }
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82 | if(fHalfLength < 1.0E-2)
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83 | {
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84 | cout << "ERROR: magnetic field length is too low\n";
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85 | return;
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86 | }
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87 |
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88 | // import array with output from filter/classifier module
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89 |
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90 | fInputArray = ImportArray(GetString("InputArray", "Delphes/stableParticles"));
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91 | fItInputArray = fInputArray->MakeIterator();
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92 |
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93 | // create output arrays
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94 |
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95 | fOutputArray = ExportArray(GetString("OutputArray", "stableParticles"));
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96 | fChargedHadronOutputArray = ExportArray(GetString("ChargedHadronOutputArray", "chargedHadrons"));
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97 | fElectronOutputArray = ExportArray(GetString("ElectronOutputArray", "electrons"));
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98 | fMuonOutputArray = ExportArray(GetString("MuonOutputArray", "muons"));
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99 | }
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100 |
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101 | //------------------------------------------------------------------------------
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102 |
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103 | void ParticlePropagator::Finish()
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104 | {
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105 | if(fItInputArray) delete fItInputArray;
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106 | }
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107 |
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108 | //------------------------------------------------------------------------------
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109 |
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110 | void ParticlePropagator::Process()
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111 | {
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112 | Candidate *candidate, *mother;
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113 | TLorentzVector candidatePosition, candidateMomentum;
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114 | Double_t px, py, pz, pt, pt2, e, q;
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115 | Double_t x, y, z, t, r, phi;
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116 | Double_t x_c, y_c, r_c, phi_c, phi_0;
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117 | Double_t x_t, y_t, z_t, r_t;
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118 | Double_t t1, t2, t3, t4, t5, t6;
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119 | Double_t t_z, t_r, t_ra, t_rb;
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120 | Double_t tmp, discr, discr2;
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121 | Double_t delta, gammam, omega, asinrho;
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122 | Double_t ang_mom, rcu, rc2, dxy, xd, yd, zd;
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123 |
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124 | const Double_t c_light = 2.99792458E8;
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125 |
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126 | fItInputArray->Reset();
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127 | while((candidate = static_cast<Candidate*>(fItInputArray->Next())))
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128 | {
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129 | candidatePosition = candidate->Position;
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130 | candidateMomentum = candidate->Momentum;
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131 | x = candidatePosition.X()*1.0E-3;
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132 | y = candidatePosition.Y()*1.0E-3;
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133 | z = candidatePosition.Z()*1.0E-3;
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134 | q = candidate->Charge;
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135 |
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136 | // check that particle position is inside the cylinder
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137 | if(TMath::Hypot(x, y) > fRadius || TMath::Abs(z) > fHalfLength)
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138 | {
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139 | continue;
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140 | }
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141 |
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142 | px = candidateMomentum.Px();
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143 | py = candidateMomentum.Py();
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144 | pz = candidateMomentum.Pz();
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145 | pt = candidateMomentum.Pt();
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146 | pt2 = candidateMomentum.Perp2();
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147 | e = candidateMomentum.E();
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148 |
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149 | if(pt2 < 1.0E-9)
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150 | {
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151 | continue;
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152 | }
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153 |
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154 | if(TMath::Abs(q) < 1.0E-9 || TMath::Abs(fBz) < 1.0E-9)
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155 | {
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156 | // solve pt2*t^2 + 2*(px*x + py*y)*t - (fRadius2 - x*x - y*y) = 0
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157 | tmp = px*y - py*x;
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158 | discr2 = pt2*fRadius2 - tmp*tmp;
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159 |
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160 | if(discr2 < 0)
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161 | {
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162 | // no solutions
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163 | continue;
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164 | }
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165 |
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166 | tmp = px*x + py*y;
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167 | discr = TMath::Sqrt(discr2);
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168 | t1 = (-tmp + discr)/pt2;
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169 | t2 = (-tmp - discr)/pt2;
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170 | t = (t1 < 0) ? t2 : t1;
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171 |
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172 | z_t = z + pz*t;
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173 | if(TMath::Abs(z_t) > fHalfLength)
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174 | {
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175 | t3 = (+fHalfLength - z) / pz;
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176 | t4 = (-fHalfLength - z) / pz;
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177 | t = (t3 < 0) ? t4 : t3;
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178 | }
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179 |
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180 | x_t = x + px*t;
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181 | y_t = y + py*t;
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182 | z_t = z + pz*t;
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183 |
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184 | mother = candidate;
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185 | candidate = static_cast<Candidate*>(candidate->Clone());
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186 |
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187 | candidate->Position.SetXYZT(x_t*1.0E3, y_t*1.0E3, z_t*1.0E3, candidatePosition.T() + t*e*1.0E3);
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188 |
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189 | candidate->Momentum = candidateMomentum;
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190 | candidate->AddCandidate(mother);
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191 |
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192 | fOutputArray->Add(candidate);
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193 | if(TMath::Abs(q) > 1.0E-9)
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194 | {
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195 | switch(TMath::Abs(candidate->PID))
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196 | {
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197 | case 11:
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198 | fElectronOutputArray->Add(candidate);
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199 | break;
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200 | case 13:
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201 | fMuonOutputArray->Add(candidate);
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202 | break;
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203 | default:
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204 | fChargedHadronOutputArray->Add(candidate);
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205 | }
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206 | }
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207 | }
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208 | else
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209 | {
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210 |
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211 | // 1. initial transverse momentum p_{T0} : Part->pt
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212 | // initial transverse momentum direction \phi_0 = -atan(p_X0/p_Y0)
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213 | // relativistic gamma : gamma = E/mc² ; gammam = gamma \times m
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214 | // giration frequency \omega = q/(gamma m) fBz
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215 | // helix radius r = p_T0 / (omega gamma m)
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216 |
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217 | gammam = e*1.0E9 / (c_light*c_light); // gammam in [eV/c²]
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218 | omega = q * fBz / (gammam); // omega is here in [ 89875518 / s]
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219 | r = pt / (q * fBz) * 1.0E9/c_light; // in [m]
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220 |
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221 | phi_0 = TMath::ATan2(py, px); // [rad] in [-pi; pi]
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222 |
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223 | // 2. helix axis coordinates
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224 | x_c = x + r*TMath::Sin(phi_0);
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225 | y_c = y - r*TMath::Cos(phi_0);
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226 | r_c = TMath::Hypot(x_c, y_c);
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227 | phi_c = TMath::ATan2(y_c, x_c);
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228 | phi = phi_c;
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229 | if(x_c < 0.0) phi += TMath::Pi();
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230 |
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231 | rcu = TMath::Abs(r);
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232 | rc2 = r_c*r_c;
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233 |
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234 | // calculate coordinates of closest approach to track circle in transverse plane xd, yd, zd
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235 | xd = x_c*x_c*x_c - x_c*rcu*r_c + x_c*y_c*y_c;
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236 | xd = ( rc2 > 0.0 ) ? xd / rc2 : -999;
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237 | yd = y_c*(-rcu*r_c + rc2);
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238 | yd = ( rc2 > 0.0 ) ? yd / rc2 : -999;
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239 | zd = z + (TMath::Sqrt(xd*xd+yd*yd) - TMath::Sqrt(x*x+y*y))*pz/pt;
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240 |
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241 | // calculate impact paramater
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242 | ang_mom = (xd*py - yd*px);
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243 | dxy = ang_mom/pt;
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244 |
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245 |
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246 | // 3. time evaluation t = TMath::Min(t_r, t_z)
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247 | // t_r : time to exit from the sides
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248 | // t_z : time to exit from the front or the back
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249 | t_r = 0.0; // in [ns]
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250 | int sign_pz = (pz > 0.0) ? 1 : -1;
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251 | if(pz == 0.0) t_z = 1.0E99;
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252 | else t_z = gammam / (pz*1.0E9/c_light) * (-z + fHalfLength*sign_pz);
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253 |
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254 | if(r_c + TMath::Abs(r) < fRadius)
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255 | {
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256 | // helix does not cross the cylinder sides
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257 | t = t_z;
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258 | }
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259 | else
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260 | {
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261 | asinrho = TMath::ASin( (fRadius*fRadius - r_c*r_c - r*r) / (2*TMath::Abs(r)*r_c) );
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262 | delta = phi_0 - phi;
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263 | if(delta <-TMath::Pi()) delta += 2*TMath::Pi();
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264 | if(delta > TMath::Pi()) delta -= 2*TMath::Pi();
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265 | t1 = (delta + asinrho) / omega;
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266 | t2 = (delta + TMath::Pi() - asinrho) / omega;
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267 | t3 = (delta + TMath::Pi() + asinrho) / omega;
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268 | t4 = (delta - asinrho) / omega;
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269 | t5 = (delta - TMath::Pi() - asinrho) / omega;
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270 | t6 = (delta - TMath::Pi() + asinrho) / omega;
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271 |
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272 | if(t1 < 0) t1 = 1.0E99;
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273 | if(t2 < 0) t2 = 1.0E99;
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274 | if(t3 < 0) t3 = 1.0E99;
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275 | if(t4 < 0) t4 = 1.0E99;
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276 | if(t5 < 0) t5 = 1.0E99;
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277 | if(t6 < 0) t6 = 1.0E99;
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278 |
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279 | t_ra = TMath::Min(t1, TMath::Min(t2, t3));
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280 | t_rb = TMath::Min(t4, TMath::Min(t5, t6));
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281 | t_r = TMath::Min(t_ra, t_rb);
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282 | t = TMath::Min(t_r, t_z);
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283 | }
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284 |
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285 | // 4. position in terms of x(t), y(t), z(t)
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286 | x_t = x_c + r * TMath::Sin(omega * t - phi_0);
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287 | y_t = y_c + r * TMath::Cos(omega * t - phi_0);
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288 | z_t = z + pz*1.0E9 / c_light / gammam * t;
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289 | r_t = TMath::Hypot(x_t, y_t);
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290 |
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291 | if(r_t > 0.0)
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292 | {
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293 | mother = candidate;
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294 | candidate = static_cast<Candidate*>(candidate->Clone());
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295 |
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296 | candidate->Position.SetXYZT(x_t*1.0E3, y_t*1.0E3, z_t*1.0E3, candidatePosition.T() + t*c_light*1.0E3);
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297 |
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298 | candidate->Momentum = candidateMomentum;
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299 | candidate->Xd = xd*1.0E3;
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300 | candidate->Yd = yd*1.0E3;
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301 | candidate->Zd = zd*1.0E3;
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302 |
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303 | candidate->AddCandidate(mother);
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304 |
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305 | fOutputArray->Add(candidate);
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306 | switch(TMath::Abs(candidate->PID))
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307 | {
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308 | case 11:
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309 | fElectronOutputArray->Add(candidate);
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310 | break;
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311 | case 13:
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312 | fMuonOutputArray->Add(candidate);
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313 | break;
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314 | default:
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315 | fChargedHadronOutputArray->Add(candidate);
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316 | }
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317 | }
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318 | }
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319 | }
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320 | }
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321 |
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322 | //------------------------------------------------------------------------------
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323 |
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