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Geant4/parameterisations/gflash/src/GFlashHomoShowerParameterisation.cc

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Differences between /parameterisations/gflash/src/GFlashHomoShowerParameterisation.cc (Version 11.3.0) and /parameterisations/gflash/src/GFlashHomoShowerParameterisation.cc (Version 11.0.p2)


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 28 // -------------------------------------------     28 // ------------------------------------------------------------
 29 // GEANT 4 class implementation                    29 // GEANT 4 class implementation
 30 //                                                 30 //
 31 //      ------- GFlashHomoShowerParameterisati     31 //      ------- GFlashHomoShowerParameterisation -------
 32 //                                                 32 //
 33 // Authors: E.Barberio & Joanna Weng - 9.11.20     33 // Authors: E.Barberio & Joanna Weng - 9.11.2004
 34 // -------------------------------------------     34 // ------------------------------------------------------------
 35                                                    35 
 36 #include <cmath>                                   36 #include <cmath>
 37                                                    37 
 38 #include "GFlashHomoShowerParameterisation.hh"     38 #include "GFlashHomoShowerParameterisation.hh"
 39 #include "GVFlashShowerParameterisation.hh"        39 #include "GVFlashShowerParameterisation.hh"
 40 #include "G4PhysicalConstants.hh"                  40 #include "G4PhysicalConstants.hh"
 41 #include "G4SystemOfUnits.hh"                      41 #include "G4SystemOfUnits.hh"
 42 #include "Randomize.hh"                            42 #include "Randomize.hh"
 43 #include "G4ios.hh"                                43 #include "G4ios.hh"
 44 #include "G4Material.hh"                           44 #include "G4Material.hh"
 45 #include "G4MaterialTable.hh"                      45 #include "G4MaterialTable.hh"
 46                                                    46 
 47 GFlashHomoShowerParameterisation::GFlashHomoSh <<  47 GFlashHomoShowerParameterisation::
 48                                                <<  48 GFlashHomoShowerParameterisation(G4Material * aMat,
                                                   >>  49                                  GVFlashHomoShowerTuning * aPar)
 49   : GVFlashShowerParameterisation(),               50   : GVFlashShowerParameterisation(),
 50     ConstantResolution(0.),                    <<  51     ConstantResolution(0.), NoiseResolution(0.), SamplingResolution(0.),
 51     NoiseResolution(0.),                       <<  52     AveLogAlphah(0.), AveLogTmaxh(0.), SigmaLogAlphah(0.), SigmaLogTmaxh(0.),
 52     SamplingResolution(0.),                    <<  53     Rhoh(0.), Alphah(0.), Tmaxh(0.), Betah(0.)
 53     AveLogAlphah(0.),                          << 
 54     AveLogTmaxh(0.),                           << 
 55     SigmaLogAlphah(0.),                        << 
 56     SigmaLogTmaxh(0.),                         << 
 57     Rhoh(0.),                                  << 
 58     Alphah(0.),                                << 
 59     Tmaxh(0.),                                 << 
 60     Betah(0.)                                  << 
 61                                                    54 
 62 {                                              <<  55 {  
 63   if (!aPar) {                                 <<  56   if(!aPar) {
 64     thePar = new GVFlashHomoShowerTuning;          57     thePar = new GVFlashHomoShowerTuning;
 65   }                                            <<  58   } else {
 66   else {                                       << 
 67     thePar = aPar;                                 59     thePar = aPar;
 68   }                                                60   }
 69                                                    61 
 70   SetMaterial(aMat);                               62   SetMaterial(aMat);
 71   PrintMaterial(aMat);                             63   PrintMaterial(aMat);
 72                                                    64 
 73   /*******************************************     65   /********************************************/
 74   /* Homo Calorimeter                              66   /* Homo Calorimeter                         */
 75   /******************************************* <<  67   /********************************************/ 
 76   // Longitudinal Coefficients for a homogenio     68   // Longitudinal Coefficients for a homogenious calo
 77   // shower max                                    69   // shower max
 78   //                                               70   //
 79   ParAveT1 = thePar->ParAveT1();  // ln (ln y  <<  71   ParAveT1    = thePar->ParAveT1();   // ln (ln y -0.812)  
 80   ParAveA1 = thePar->ParAveA1();  // ln a (0.8 <<  72   ParAveA1    = thePar->ParAveA1();   // ln a (0.81 + (0.458 + 2.26/Z)ln y)
 81   ParAveA2 = thePar->ParAveA2();               <<  73   ParAveA2    = thePar->ParAveA2();
 82   ParAveA3 = thePar->ParAveA3();               <<  74   ParAveA3    = thePar->ParAveA3();
 83                                                    75 
 84   // Variance of shower max                        76   // Variance of shower max
 85   ParSigLogT1 = thePar->ParSigLogT1();  // Sig <<  77   ParSigLogT1 = thePar->ParSigLogT1();     // Sigma T1 (-1.4 + 1.26 ln y)**-1 
 86   ParSigLogT2 = thePar->ParSigLogT2();             78   ParSigLogT2 = thePar->ParSigLogT2();
 87                                                    79 
 88   // variance of 'alpha'                           80   // variance of 'alpha'
 89   //                                               81   //
 90   ParSigLogA1 = thePar->ParSigLogA1();  // Sig <<  82   ParSigLogA1 = thePar->ParSigLogA1();    // Sigma a (-0.58 + 0.86 ln y)**-1 
 91   ParSigLogA2 = thePar->ParSigLogA2();             83   ParSigLogA2 = thePar->ParSigLogA2();
 92                                                    84 
 93   // correlation alpha%T                           85   // correlation alpha%T
 94   //                                               86   //
 95   ParRho1 = thePar->ParRho1();  // Rho = 0.705 <<  87   ParRho1     = thePar->ParRho1();   // Rho = 0.705 -0.023 ln y 
 96   ParRho2 = thePar->ParRho2();                 <<  88   ParRho2     = thePar->ParRho2();
 97                                                    89 
 98   // Radial Coefficients                           90   // Radial Coefficients
 99   // r_C (tau)= z_1 +z_2 tau                       91   // r_C (tau)= z_1 +z_2 tau
100   // r_t (tau)= k1 (std::exp (k3(tau -k2 ))+st     92   // r_t (tau)= k1 (std::exp (k3(tau -k2 ))+std::exp (k_4 (tau- k_2))))
101   //                                               93   //
102   ParRC1 = thePar->ParRC1();  // z_1 = 0.0251  <<  94   ParRC1 =   thePar->ParRC1();   // z_1 = 0.0251 + 0.00319 ln E
103   ParRC2 = thePar->ParRC2();                   <<  95   ParRC2 =   thePar->ParRC2();
104                                                    96 
105   ParRC3 = thePar->ParRC3();  // z_2 = 0.1162  <<  97   ParRC3 =   thePar->ParRC3();   // z_2 = 0.1162 + - 0.000381 Z
106   ParRC4 = thePar->ParRC4();                   <<  98   ParRC4 =   thePar->ParRC4();
107                                                    99 
108   ParWC1 = thePar->ParWC1();                      100   ParWC1 = thePar->ParWC1();
109   ParWC2 = thePar->ParWC2();                      101   ParWC2 = thePar->ParWC2();
110   ParWC3 = thePar->ParWC3();                      102   ParWC3 = thePar->ParWC3();
111   ParWC4 = thePar->ParWC4();                      103   ParWC4 = thePar->ParWC4();
112   ParWC5 = thePar->ParWC5();                   << 104   ParWC5 = thePar->ParWC5(); 
113   ParWC6 = thePar->ParWC6();                      105   ParWC6 = thePar->ParWC6();
114                                                   106 
115   ParRT1 = thePar->ParRT1();                      107   ParRT1 = thePar->ParRT1();
116   ParRT2 = thePar->ParRT2();                      108   ParRT2 = thePar->ParRT2();
117   ParRT3 = thePar->ParRT3();                      109   ParRT3 = thePar->ParRT3();
118   ParRT4 = thePar->ParRT4();                   << 110   ParRT4 = thePar->ParRT4(); 
119   ParRT5 = thePar->ParRT5();                      111   ParRT5 = thePar->ParRT5();
120   ParRT6 = thePar->ParRT6();                      112   ParRT6 = thePar->ParRT6();
121                                                   113 
122   // Coeff for fluctueted radial  profiles for    114   // Coeff for fluctueted radial  profiles for a uniform media
123   //                                              115   //
124   ParSpotT1 = thePar->ParSpotT1();  // T_spot  << 116   ParSpotT1   = thePar->ParSpotT1();     // T_spot = T_hom =(0.698 + 0.00212)
125   ParSpotT2 = thePar->ParSpotT2();             << 117   ParSpotT2   = thePar->ParSpotT2();
126                                                   118 
127   ParSpotA1 = thePar->ParSpotA1();  // a_spot= << 119   ParSpotA1   = thePar->ParSpotA1();     // a_spot= a_hom (0.639 + 0.00334)
128   ParSpotA2 = thePar->ParSpotA2();             << 120   ParSpotA2   = thePar->ParSpotA2();  
129                                                   121 
130   ParSpotN1 = thePar->ParSpotN1();  // N_Spot  << 122   ParSpotN1   = thePar->ParSpotN1();     // N_Spot 93 * ln(Z) E ** 0.876   
131   ParSpotN2 = thePar->ParSpotN2();             << 123   ParSpotN2   = thePar->ParSpotN2(); 
132                                                   124 
133   // Inits                                        125   // Inits
134                                                   126 
135   NSpot = 0.00;                                << 127   NSpot         = 0.00;
136   AlphaNSpot = 0.00;                           << 128   AlphaNSpot    = 0.00;
137   TNSpot = 0.00;                               << 129   TNSpot        = 0.00;
138   BetaNSpot = 0.00;                            << 130   BetaNSpot     = 0.00;
139                                                << 131 
140   RadiusCore = 0.00;                           << 132   RadiusCore    = 0.00;
141   WeightCore = 0.00;                           << 133   WeightCore    = 0.00;
142   RadiusTail = 0.00;                           << 134   RadiusTail    = 0.00; 
143                                                   135 
144   G4cout << "/********************************    136   G4cout << "/********************************************/ " << G4endl;
145   G4cout << "  - GFlashHomoShowerParameterisat << 137   G4cout << "  - GFlashHomoShowerParameterisation::Constructor -  " << G4endl;  
146   G4cout << "/********************************    138   G4cout << "/********************************************/ " << G4endl;
147 }                                                 139 }
148                                                   140 
149 void GFlashHomoShowerParameterisation::SetMate << 141 void GFlashHomoShowerParameterisation::SetMaterial(G4Material *mat)
150 {                                                 142 {
151   material = mat;                              << 143   material= mat;
152   Z = GetEffZ(material);                          144   Z = GetEffZ(material);
153   A = GetEffA(material);                          145   A = GetEffA(material);
154   density = material->GetDensity() / (g / cm3) << 146   density = material->GetDensity()/(g/cm3);
155   X0 = material->GetRadlen();                  << 147   X0  = material->GetRadlen(); 
156   // O. I. Dovzhenkko and A. A. Pommanskii     << 148   Ec      = 2.66 * std::pow((X0 * Z / A),1.1); 
157   Ec = 2.66 * std::pow((X0 * Z / A), 1.1);     << 149   G4double Es = 21*MeV;
158   // // Rossi appriximation                    << 150   Rm = X0*Es/Ec;
159   // Ec = 610.0 * MeV / (Z + 1.24);            << 151   // PrintMaterial(); 
160   const G4double Es = 21.2 * MeV;              << 
161   Rm = X0 * Es / Ec;                           << 
162   // PrintMaterial();                          << 
163 }                                                 152 }
164                                                   153 
165 GFlashHomoShowerParameterisation::~GFlashHomoS    154 GFlashHomoShowerParameterisation::~GFlashHomoShowerParameterisation()
166 {                                                 155 {
167   delete thePar;                                  156   delete thePar;
168 }                                                 157 }
169                                                   158 
170 void GFlashHomoShowerParameterisation::Generat << 159 void GFlashHomoShowerParameterisation::
                                                   >> 160 GenerateLongitudinalProfile(G4double Energy)
171 {                                                 161 {
172   if (material == 0) {                         << 162   if (material==0) 
173     G4Exception("GFlashHomoShowerParameterisat << 163   {
174                 FatalException, "No material i << 164     G4Exception("GFlashHomoShowerParameterisation::GenerateLongitudinalProfile()",
                                                   >> 165                 "InvalidSetup", FatalException, "No material initialized!");
175   }                                               166   }
176                                                << 167   
177   G4double y = Energy / Ec;                    << 168   G4double y = Energy/Ec;
178   ComputeLongitudinalParameters(y);            << 169   ComputeLongitudinalParameters(y);  
179   GenerateEnergyProfile(y);                       170   GenerateEnergyProfile(y);
180   GenerateNSpotProfile(y);                        171   GenerateNSpotProfile(y);
181 }                                                 172 }
182                                                   173 
183 void GFlashHomoShowerParameterisation::Compute << 174 void
                                                   >> 175 GFlashHomoShowerParameterisation::ComputeLongitudinalParameters(G4double y)
184 {                                                 176 {
185   AveLogTmaxh = std::log(ParAveT1 + std::log(y << 177   AveLogTmaxh  = std::log(ParAveT1 + std::log(y));
186   // ok  <ln T hom>                            << 178     //ok  <ln T hom>
187   AveLogAlphah = std::log(ParAveA1 + (ParAveA2 << 179   AveLogAlphah = std::log(ParAveA1 + (ParAveA2+ParAveA3/Z)*std::log(y));
188   // ok  <ln alpha hom>                        << 180     //ok  <ln alpha hom> 
189                                                << 181 
190   SigmaLogTmaxh = 1.00 / (ParSigLogT1 + ParSig << 182   SigmaLogTmaxh  = 1.00/( ParSigLogT1 + ParSigLogT2*std::log(y)) ;
191   // ok sigma (ln T hom)                       << 183     //ok sigma (ln T hom)
192   SigmaLogAlphah = 1.00 / (ParSigLogA1 + ParSi << 184   SigmaLogAlphah = 1.00/( ParSigLogA1 + ParSigLogA2*std::log(y));
193   // ok sigma (ln alpha hom)                   << 185     //ok sigma (ln alpha hom)
194   Rhoh = ParRho1 + ParRho2 * std::log(y);  //  << 186   Rhoh           = ParRho1+ParRho2*std::log(y);        //ok             
195 }                                                 187 }
196                                                   188 
197 void GFlashHomoShowerParameterisation::Generat    189 void GFlashHomoShowerParameterisation::GenerateEnergyProfile(G4double /* y */)
198 {                                              << 190 { 
199   G4double Correlation1h = std::sqrt((1 + Rhoh << 191   G4double Correlation1h = std::sqrt((1+Rhoh)/2);
200   G4double Correlation2h = std::sqrt((1 - Rhoh << 192   G4double Correlation2h = std::sqrt((1-Rhoh)/2);
201                                                   193 
202   G4double Random1 = G4RandGauss::shoot();        194   G4double Random1 = G4RandGauss::shoot();
203   G4double Random2 = G4RandGauss::shoot();        195   G4double Random2 = G4RandGauss::shoot();
204                                                   196 
205   // Parameters for Enenrgy Profile including  << 197   // Parameters for Enenrgy Profile including correaltion and sigmas 
206                                                << 198  
207   Tmaxh =                                      << 199   Tmaxh  = std::exp( AveLogTmaxh  + SigmaLogTmaxh  *
208     std::exp(AveLogTmaxh + SigmaLogTmaxh * (Co << 200            (Correlation1h*Random1 + Correlation2h*Random2) );
209   Alphah =                                     << 201   Alphah = std::exp( AveLogAlphah + SigmaLogAlphah *
210     std::exp(AveLogAlphah + SigmaLogAlphah * ( << 202            (Correlation1h*Random1 - Correlation2h*Random2) );
211   Betah = (Alphah - 1.00) / Tmaxh;             << 203   Betah  = (Alphah-1.00)/Tmaxh;
212 }                                                 204 }
213                                                   205 
214 void GFlashHomoShowerParameterisation::Generat    206 void GFlashHomoShowerParameterisation::GenerateNSpotProfile(const G4double y)
215 {                                                 207 {
216   TNSpot = Tmaxh * (ParSpotT1 + ParSpotT2 * Z) << 208   TNSpot     = Tmaxh *  (ParSpotT1+ParSpotT2*Z);   // ok
217   AlphaNSpot = Alphah * (ParSpotA1 + ParSpotA2 << 209   AlphaNSpot = Alphah * (ParSpotA1+ParSpotA2*Z);   
218   BetaNSpot = (AlphaNSpot - 1.00) / TNSpot;  / << 210   BetaNSpot  = (AlphaNSpot-1.00)/TNSpot;           // ok 
219   NSpot = ParSpotN1 * std::log(Z) * std::pow(( << 211   NSpot      = ParSpotN1 * std::log(Z)*std::pow((y*Ec)/GeV,ParSpotN2 ); // ok
220 }                                                 212 }
221                                                   213 
222 G4double GFlashHomoShowerParameterisation::       214 G4double GFlashHomoShowerParameterisation::
223 IntegrateEneLongitudinal(G4double Longitudinal    215 IntegrateEneLongitudinal(G4double LongitudinalStep)
224 {                                                 216 {
225   G4double LongitudinalStepInX0 = Longitudinal    217   G4double LongitudinalStepInX0 = LongitudinalStep / X0;
226   G4float x1= Betah*LongitudinalStepInX0;         218   G4float x1= Betah*LongitudinalStepInX0;
227   G4float x2= Alphah;                             219   G4float x2= Alphah;
228   float x3 =  gam(x1,x2);                         220   float x3 =  gam(x1,x2);
229   G4double DEne=x3;                               221   G4double DEne=x3;
230   return DEne;                                    222   return DEne;
231 }                                                 223 }
232                                                   224 
233 G4double GFlashHomoShowerParameterisation::Int << 225 G4double GFlashHomoShowerParameterisation::
                                                   >> 226 IntegrateNspLongitudinal(G4double LongitudinalStep)
234 {                                                 227 {
235   G4double LongitudinalStepInX0 = Longitudinal << 228   G4double LongitudinalStepInX0 = LongitudinalStep / X0; 
236   G4float x1 = BetaNSpot * LongitudinalStepInX << 229   G4float x1 = BetaNSpot*LongitudinalStepInX0;
237   G4float x2 = AlphaNSpot;                        230   G4float x2 = AlphaNSpot;
238   G4float x3 = gam(x1, x2);                    << 231   G4float x3 =  gam(x1,x2);
239   G4double DNsp = x3;                             232   G4double DNsp = x3;
240   return DNsp;                                    233   return DNsp;
241 }                                                 234 }
242                                                   235 
243 G4double GFlashHomoShowerParameterisation::Gen << 236 
244                                                << 237 G4double GFlashHomoShowerParameterisation::
                                                   >> 238 GenerateRadius(G4int ispot, G4double Energy, G4double LongitudinalPosition)
245 {                                                 239 {
246   if (ispot < 1) {                             << 240   if(ispot < 1) 
                                                   >> 241   {
247     // Determine lateral parameters in the mid    242     // Determine lateral parameters in the middle of the step.
248     // They depend on energy & position along     243     // They depend on energy & position along step.
249     //                                            244     //
250     G4double Tau = ComputeTau(LongitudinalPosi    245     G4double Tau = ComputeTau(LongitudinalPosition);
251     ComputeRadialParameters(Energy, Tau);      << 246     ComputeRadialParameters(Energy,Tau);  
252   }                                               247   }
253                                                   248 
254   G4double Radius;                                249   G4double Radius;
255   G4double Random1 = G4UniformRand();             250   G4double Random1 = G4UniformRand();
256   G4double Random2 = G4UniformRand();          << 251   G4double Random2 = G4UniformRand(); 
257                                                   252 
258   if (Random1 < WeightCore)  // WeightCore = p << 253   if(Random1  <WeightCore) //WeightCore = p < w_i  
259   {                                               254   {
260     Radius = Rm * RadiusCore * std::sqrt(Rando << 255     Radius = Rm * RadiusCore * std::sqrt( Random2/(1. - Random2) );
261   }                                               256   }
262   else {                                       << 257   else
263     Radius = Rm * RadiusTail * std::sqrt(Rando << 258   {
264   }                                            << 259     Radius = Rm * RadiusTail * std::sqrt( Random2/(1. - Random2) );
265   Radius = std::min(Radius, DBL_MAX);          << 260   }   
                                                   >> 261   Radius =  std::min(Radius,DBL_MAX);
266   return Radius;                                  262   return Radius;
267 }                                                 263 }
268                                                   264 
269 G4double GFlashHomoShowerParameterisation::Com << 265 G4double GFlashHomoShowerParameterisation::
                                                   >> 266 ComputeTau(G4double LongitudinalPosition)
270 {                                                 267 {
271   G4double tau = LongitudinalPosition / Tmaxh  << 268   G4double tau = LongitudinalPosition / Tmaxh / X0     //<t> = T* a /(a - 1) 
272                  * (Alphah - 1.00) / Alphah *  << 269   * (Alphah-1.00) /Alphah * 
273                  / (std::exp(AveLogAlphah) - 1 << 270   std::exp(AveLogAlphah)/(std::exp(AveLogAlphah)-1.);  //ok 
274   return tau;                                     271   return tau;
275 }                                                 272 }
276                                                   273 
277 void GFlashHomoShowerParameterisation::Compute << 274 void GFlashHomoShowerParameterisation::
                                                   >> 275 ComputeRadialParameters(G4double Energy, G4double Tau)
278 {                                                 276 {
279   G4double z1 = ParRC1 + ParRC2 * std::log(Ene << 277   G4double z1 = ParRC1 + ParRC2* std::log(Energy/GeV)  ;       //ok
280   G4double z2 = ParRC3 + ParRC4 * Z;  // ok    << 278   G4double z2 = ParRC3+ParRC4*Z ;                              //ok
281   RadiusCore = z1 + z2 * Tau;  // ok           << 279   RadiusCore   =  z1 + z2 * Tau  ;                             //ok 
282                                                << 280 
283   G4double p1 = ParWC1 + ParWC2 * Z;  // ok    << 281   G4double p1 = ParWC1+ParWC2*Z;                               //ok
284   G4double p2 = ParWC3 + ParWC4 * Z;  // ok    << 282   G4double p2 = ParWC3+ParWC4*Z;                               //ok
285   G4double p3 = ParWC5 + ParWC6 * std::log(Ene << 283   G4double p3 = ParWC5+ParWC6*std::log(Energy/GeV);            //ok
286                                                << 284 
287   WeightCore = p1 * std::exp((p2 - Tau) / p3 - << 285   WeightCore   =  p1 * std::exp( (p2-Tau)/p3 - std::exp( (p2-Tau) /p3) ); //ok
288                                                << 286 
289   G4double k1 = ParRT1 + ParRT2 * Z;  // ok    << 287   G4double k1 = ParRT1+ParRT2*Z;                   // ok
290   G4double k2 = ParRT3;  // ok                 << 288   G4double k2 = ParRT3;                            // ok
291   G4double k3 = ParRT4;  // ok                 << 289   G4double k3 = ParRT4;                            // ok
292   G4double k4 = ParRT5 + ParRT6 * std::log(Ene << 290   G4double k4 = ParRT5+ParRT6* std::log(Energy/GeV);    // ok
293                                                   291 
294   RadiusTail = k1 * (std::exp(k3 * (Tau - k2)) << 292   RadiusTail   = k1*(std::exp(k3*(Tau-k2))  +
                                                   >> 293   std::exp(k4*(Tau-k2)) );            //ok
295 }                                                 294 }
296                                                   295 
297 G4double GFlashHomoShowerParameterisation::       296 G4double GFlashHomoShowerParameterisation::
298 GenerateExponential(const G4double /* Energy *    297 GenerateExponential(const G4double /* Energy */ )
299 {                                                 298 {
300   G4double ParExp1 =  9./7.*X0;                   299   G4double ParExp1 =  9./7.*X0;
301   G4double random  = -ParExp1*G4RandExponentia    300   G4double random  = -ParExp1*G4RandExponential::shoot() ;
302   return random;                                  301   return random;
303 }                                                 302 }
304                                                   303