Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/particles/management/src/G4PionRadiativeDecayChannel.cc

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /particles/management/src/G4PionRadiativeDecayChannel.cc (Version 11.3.0) and /particles/management/src/G4PionRadiativeDecayChannel.cc (Version 10.4.p3)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
  4 // *                                                4 // *                                                                  *
  5 // * The  Geant4 software  is  copyright of th      5 // * The  Geant4 software  is  copyright of the Copyright Holders  of *
  6 // * the Geant4 Collaboration.  It is provided      6 // * the Geant4 Collaboration.  It is provided  under  the terms  and *
  7 // * conditions of the Geant4 Software License      7 // * conditions of the Geant4 Software License,  included in the file *
  8 // * LICENSE and available at  http://cern.ch/      8 // * LICENSE and available at  http://cern.ch/geant4/license .  These *
  9 // * include a list of copyright holders.           9 // * include a list of copyright holders.                             *
 10 // *                                               10 // *                                                                  *
 11 // * Neither the authors of this software syst     11 // * Neither the authors of this software system, nor their employing *
 12 // * institutes,nor the agencies providing fin     12 // * institutes,nor the agencies providing financial support for this *
 13 // * work  make  any representation or  warran     13 // * work  make  any representation or  warranty, express or implied, *
 14 // * regarding  this  software system or assum     14 // * regarding  this  software system or assume any liability for its *
 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
 16 // * for the full disclaimer and the limitatio     16 // * for the full disclaimer and the limitation of liability.         *
 17 // *                                               17 // *                                                                  *
 18 // * This  code  implementation is the result      18 // * This  code  implementation is the result of  the  scientific and *
 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
 20 // * By using,  copying,  modifying or  distri     20 // * By using,  copying,  modifying or  distributing the software (or *
 21 // * any work based  on the software)  you  ag     21 // * any work based  on the software)  you  agree  to acknowledge its *
 22 // * use  in  resulting  scientific  publicati     22 // * use  in  resulting  scientific  publications,  and indicate your *
 23 // * acceptance of all terms of the Geant4 Sof     23 // * acceptance of all terms of the Geant4 Software license.          *
 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 // G4PionRadiativeDecayChannel class implement <<  26 // ------------------------------------------------------------
 27 //      GEANT 4 class header file                  27 //      GEANT 4 class header file
 28 //                                                 28 //
 29 // Author: P.Gumplinger, 30 July 2007          <<  29 //      History:
 30 // Reference: M. Blecher, TRIUMF/PIENU Technot <<  30 //               01 August 2007 P.Gumplinger
 31 //            "Inclusion of pi->enug in the Mo <<  31 //               Reference: TRIUMF PIENU Technote:
 32 // ------------------------------------------- <<  32 //                          M. Blecher - "Inclusion of pi->enug in MC "
                                                   >>  33 //                              Rate is for gammas > 100keV
                                                   >>  34 //
                                                   >>  35 // ------------------------------------------------------------
                                                   >>  36 //
                                                   >>  37 //
                                                   >>  38 //
 33                                                    39 
 34 #include "G4PionRadiativeDecayChannel.hh"          40 #include "G4PionRadiativeDecayChannel.hh"
 35                                                    41 
 36 #include "G4DecayProducts.hh"                  << 
 37 #include "G4LorentzVector.hh"                  << 
 38 #include "G4PhysicalConstants.hh"                  42 #include "G4PhysicalConstants.hh"
 39 #include "G4SystemOfUnits.hh"                      43 #include "G4SystemOfUnits.hh"
 40 #include "Randomize.hh"                            44 #include "Randomize.hh"
                                                   >>  45 #include "G4DecayProducts.hh"
                                                   >>  46 #include "G4LorentzVector.hh"
 41                                                    47 
 42 namespace                                      <<  48 namespace {
 43 {                                              <<  49   const G4double beta = 3.6612e-03;
 44 const G4double beta = 3.6612e-03;              <<  50   const G4double cib  = 1.16141e-03;
 45 const G4double cib = 1.16141e-03;              <<  51   const G4double csdp = 3.45055e-02;
 46 const G4double csdp = 3.45055e-02;             <<  52   const G4double csdm = 5.14122e-03;
 47 const G4double csdm = 5.14122e-03;             <<  53   const G4double cif  = 4.63543e-05;
 48 const G4double cif = 4.63543e-05;              <<  54   const G4double cig  = 1.78928e-05;
 49 const G4double cig = 1.78928e-05;              <<  55   const G4double xl = 2.*0.1*MeV/139.57*MeV;
 50 const G4double xl = 2. * 0.1 * MeV / 139.57 *  <<  56   const G4double yl = ((1.-xl) + std::sqrt((1-xl)*(1-xl)+4*beta*beta))/2.;
 51 const G4double yl = ((1. - xl) + std::sqrt((1  <<  57 
                                                   >>  58   const G4double xu = 1. - (yl - std::sqrt(yl*yl-4.*beta*beta))/2.;
                                                   >>  59   const G4double yu = 1. + beta*beta;
                                                   >>  60 
                                                   >>  61   inline G4double D2W(const G4double x,const G4double y) {
                                                   >>  62     return cib*(1.-y)*(1.+((1.-x)*(1.-x)))/((x*x)*(x+y-1.)) +
                                                   >>  63         csdp*(1.-x)*((x+y-1.)*(x+y-1.)) +
                                                   >>  64         csdm*(1.-x)*((1.-y)*(1.-y)) +
                                                   >>  65         cif*(x-1.)*(1.-y)/x +
                                                   >>  66         cig*(1.-y)*(1.-x+(x*x)/(x+y-1.))/x;
                                                   >>  67   }
 52                                                    68 
 53 const G4double xu = 1. - (yl - std::sqrt(yl *  <<  69   const G4double d2wmax = D2W(xl,yl);
 54 const G4double yu = 1. + beta * beta;          << 
 55                                                    70 
 56 inline G4double D2W(const G4double x, const G4 <<  71 
                                                   >>  72 }
                                                   >>  73 G4PionRadiativeDecayChannel::G4PionRadiativeDecayChannel()
                                                   >>  74   : G4VDecayChannel()
 57 {                                                  75 {
 58   return cib * (1. - y) * (1. + ((1. - x) * (1 << 
 59          + csdp * (1. - x) * ((x + y - 1.) * ( << 
 60          + cif * (x - 1.) * (1. - y) / x + cig << 
 61 }                                                  76 }
 62                                                    77 
 63 const G4double d2wmax = D2W(xl, yl);           <<  78 G4PionRadiativeDecayChannel::
 64 }  // namespace                                <<  79            G4PionRadiativeDecayChannel(const G4String& theParentName,
 65                                                <<  80                                        G4double        theBR)
 66 G4PionRadiativeDecayChannel::G4PionRadiativeDe <<  81                             : G4VDecayChannel("Radiative Pion Decay",1)
 67                                                << 
 68   : G4VDecayChannel("Radiative Pion Decay", 1) << 
 69 {                                                  82 {
 70   // set names for daughter particles              83   // set names for daughter particles
 71   if (theParentName == "pi+") {                    84   if (theParentName == "pi+") {
 72     SetBR(theBR);                                  85     SetBR(theBR);
 73     SetParent("pi+");                              86     SetParent("pi+");
 74     SetNumberOfDaughters(3);                       87     SetNumberOfDaughters(3);
 75     SetDaughter(0, "e+");                          88     SetDaughter(0, "e+");
 76     SetDaughter(1, "gamma");                       89     SetDaughter(1, "gamma");
 77     SetDaughter(2, "nu_e");                        90     SetDaughter(2, "nu_e");
 78   }                                            <<  91   } else if (theParentName == "pi-") {
 79   else if (theParentName == "pi-") {           << 
 80     SetBR(theBR);                                  92     SetBR(theBR);
 81     SetParent("pi-");                              93     SetParent("pi-");
 82     SetNumberOfDaughters(3);                       94     SetNumberOfDaughters(3);
 83     SetDaughter(0, "e-");                          95     SetDaughter(0, "e-");
 84     SetDaughter(1, "gamma");                       96     SetDaughter(1, "gamma");
 85     SetDaughter(2, "anti_nu_e");                   97     SetDaughter(2, "anti_nu_e");
 86   }                                            <<  98   } else {
 87   else {                                       << 
 88 #ifdef G4VERBOSE                                   99 #ifdef G4VERBOSE
 89     if (GetVerboseLevel() > 0) {               << 100     if (GetVerboseLevel()>0) {
 90       G4cout << "G4RadiativePionDecayChannel:: << 101       G4cout << "G4RadiativePionDecayChannel:: constructor :";
 91       G4cout << "Parent particle is not charge << 102       G4cout << " parent particle is not charged pion but ";
 92       G4cout << theParentName << G4endl;          103       G4cout << theParentName << G4endl;
 93     }                                             104     }
 94 #endif                                            105 #endif
 95   }                                               106   }
 96 }                                                 107 }
 97                                                   108 
 98 G4PionRadiativeDecayChannel&                   << 109 G4PionRadiativeDecayChannel::~G4PionRadiativeDecayChannel()
 99 G4PionRadiativeDecayChannel::operator=(const G << 
100 {                                                 110 {
101   if (this != &right) {                        << 111 }
                                                   >> 112 G4PionRadiativeDecayChannel::G4PionRadiativeDecayChannel(const G4PionRadiativeDecayChannel &right)
                                                   >> 113   :G4VDecayChannel(right)
                                                   >> 114 {
                                                   >> 115 }
                                                   >> 116 
                                                   >> 117 G4PionRadiativeDecayChannel & G4PionRadiativeDecayChannel::operator=(const G4PionRadiativeDecayChannel & right)
                                                   >> 118 {
                                                   >> 119   if (this != &right) { 
102     kinematics_name = right.kinematics_name;      120     kinematics_name = right.kinematics_name;
103     verboseLevel = right.verboseLevel;            121     verboseLevel = right.verboseLevel;
104     rbranch = right.rbranch;                      122     rbranch = right.rbranch;
105                                                   123 
106     // copy parent name                           124     // copy parent name
107     parent_name = new G4String(*right.parent_n    125     parent_name = new G4String(*right.parent_name);
108                                                   126 
109     // clear daughters_name array                 127     // clear daughters_name array
110     ClearDaughtersName();                         128     ClearDaughtersName();
111                                                   129 
112     // recreate array                             130     // recreate array
113     numberOfDaughters = right.numberOfDaughter    131     numberOfDaughters = right.numberOfDaughters;
114     if (numberOfDaughters > 0) {               << 132     if ( numberOfDaughters >0 ) {
115       if (daughters_name != nullptr) ClearDaug << 133       if (daughters_name !=0) ClearDaughtersName();
116       daughters_name = new G4String*[numberOfD    134       daughters_name = new G4String*[numberOfDaughters];
117       // copy daughters name                   << 135       //copy daughters name
118       for (G4int index = 0; index < numberOfDa << 136       for (G4int index=0; index < numberOfDaughters; index++) {
119         daughters_name[index] = new G4String(* << 137           daughters_name[index] = new G4String(*right.daughters_name[index]);
120       }                                           138       }
121     }                                             139     }
122   }                                               140   }
123   return *this;                                   141   return *this;
124 }                                                 142 }
125                                                   143 
126 G4DecayProducts* G4PionRadiativeDecayChannel:: << 144 G4DecayProducts *G4PionRadiativeDecayChannel::DecayIt(G4double) 
127 {                                                 145 {
                                                   >> 146 
128 #ifdef G4VERBOSE                                  147 #ifdef G4VERBOSE
129   if (GetVerboseLevel() > 1) G4cout << "G4Pion << 148   if (GetVerboseLevel()>1) 
                                                   >> 149                  G4cout << "G4PionRadiativeDecayChannel::DecayIt ";
130 #endif                                            150 #endif
131                                                   151 
132   CheckAndFillParent();                           152   CheckAndFillParent();
133   CheckAndFillDaughters();                        153   CheckAndFillDaughters();
134                                                   154 
135   // parent mass                                  155   // parent mass
136   G4double parentmass = G4MT_parent->GetPDGMas    156   G4double parentmass = G4MT_parent->GetPDGMass();
137                                                   157 
138   G4double EMPI = parentmass;                     158   G4double EMPI = parentmass;
139                                                   159 
140   // daughters'mass                            << 160   //daughters'mass
141   const G4int N_DAUGHTER = 3;                  << 161   const G4int N_DAUGHTER=3;
142   G4double daughtermass[N_DAUGHTER];           << 162   G4double daughtermass[N_DAUGHTER]; 
143   // G4double sumofdaughtermass = 0.0;         << 163   G4double sumofdaughtermass = 0.0;
144   for (G4int index = 0; index < N_DAUGHTER; ++ << 164   for (G4int index=0; index<N_DAUGHTER; index++){
145     daughtermass[index] = G4MT_daughters[index    165     daughtermass[index] = G4MT_daughters[index]->GetPDGMass();
146     // sumofdaughtermass += daughtermass[index << 166     sumofdaughtermass += daughtermass[index];
147   }                                               167   }
148                                                   168 
149   G4double EMASS = daughtermass[0];               169   G4double EMASS = daughtermass[0];
150                                                   170 
151   // create parent G4DynamicParticle at rest   << 171   //create parent G4DynamicParticle at rest
152   G4ThreeVector dummy;                            172   G4ThreeVector dummy;
153   auto parentparticle = new G4DynamicParticle( << 173   G4DynamicParticle * parentparticle = 
154   // create G4Decayproducts                    << 174                                new G4DynamicParticle( G4MT_parent, dummy, 0.0);
155   auto products = new G4DecayProducts(*parentp << 175   //create G4Decayproducts
                                                   >> 176   G4DecayProducts *products = new G4DecayProducts(*parentparticle);
156   delete parentparticle;                          177   delete parentparticle;
157                                                   178 
158   G4double x, y;                                  179   G4double x, y;
159                                                   180 
160   const std::size_t MAX_LOOP = 1000;           << 181   const size_t MAX_LOOP=1000;
161                                                   182 
162   for (std::size_t loop_counter1 = 0; loop_cou << 183   for (size_t loop_counter1=0; loop_counter1<MAX_LOOP; ++loop_counter1){
163     for (std::size_t loop_counter2 = 0; loop_c << 184     for (size_t loop_counter2=0; loop_counter2<MAX_LOOP; ++loop_counter2){
164       x = xl + G4UniformRand() * (xu - xl);    << 185       x = xl + G4UniformRand()*(xu-xl);
165       y = yl + G4UniformRand() * (yu - yl);    << 186       y = yl + G4UniformRand()*(yu-yl);
166       if (x + y > 1.) break;                   << 187       if (x+y > 1.) break;
167     }                                             188     }
168     G4double d2w = D2W(x, y);                  << 189     G4double d2w = D2W(x,y);
169     if (d2w > G4UniformRand() * d2wmax) break; << 190     if (d2w > G4UniformRand()*d2wmax) break;
170   }                                               191   }
171                                                   192 
172   // Calculate the angle between positron and  << 193 //-----------------------------------------------------------------------
173   //                                           << 194 //
174   G4double cthetaGE =                          << 195 //      Calculate the angle between positron and photon (cosine)
175     (y * (x - 2.) + 2. * (1. - x + beta * beta << 196 //
                                                   >> 197   G4double cthetaGE =  (y*(x-2.)+2.*(1.-x+beta*beta)) /
                                                   >> 198                        (x*std::sqrt(y*y-4.*beta*beta));
176                                                   199 
177   G4double G = x * EMPI / 2.;                  << 200 //
178   G4double E = y * EMPI / 2.;                  << 201 //-----------------------------------------------------------------------
                                                   >> 202 //
                                                   >> 203   G4double G = x * EMPI/2.;
                                                   >> 204   G4double E = y * EMPI/2.;
                                                   >> 205 //
                                                   >> 206 //-----------------------------------------------------------------------
                                                   >> 207 //
179                                                   208 
180   if (E < EMASS) E = EMASS;                       209   if (E < EMASS) E = EMASS;
181                                                   210 
182   // calculate daughter momentum                  211   // calculate daughter momentum
183   G4double daughtermomentum[2];                   212   G4double daughtermomentum[2];
184                                                   213 
185   daughtermomentum[0] = std::sqrt(E * E - EMAS << 214   daughtermomentum[0] = std::sqrt(E*E - EMASS*EMASS);
186                                                   215 
187   G4double cthetaE = 2. * G4UniformRand() - 1. << 216   G4double cthetaE = 2.*G4UniformRand()-1.;
188   G4double sthetaE = std::sqrt(1. - cthetaE *  << 217   G4double sthetaE = std::sqrt(1.-cthetaE*cthetaE);
189                                                   218 
190   G4double phiE = twopi * G4UniformRand() * ra << 219   G4double phiE = twopi*G4UniformRand()*rad;
191   G4double cphiE = std::cos(phiE);                220   G4double cphiE = std::cos(phiE);
192   G4double sphiE = std::sin(phiE);                221   G4double sphiE = std::sin(phiE);
193                                                   222 
194   // Coordinates of the decay positron         << 223   //Coordinates of the decay positron
195   //                                           << 224 
196   G4double px = sthetaE * cphiE;               << 225   G4double px = sthetaE*cphiE;
197   G4double py = sthetaE * sphiE;               << 226   G4double py = sthetaE*sphiE;
198   G4double pz = cthetaE;                          227   G4double pz = cthetaE;
199                                                   228 
200   G4ThreeVector direction0(px, py, pz);        << 229   G4ThreeVector direction0(px,py,pz);
201                                                   230 
202   auto daughterparticle0 =                     << 231   G4DynamicParticle * daughterparticle0 
203     new G4DynamicParticle(G4MT_daughters[0], d << 232     = new G4DynamicParticle( G4MT_daughters[0], daughtermomentum[0]*direction0);
204                                                   233 
205   products->PushProducts(daughterparticle0);      234   products->PushProducts(daughterparticle0);
206                                                   235 
207   daughtermomentum[1] = G;                        236   daughtermomentum[1] = G;
208                                                   237 
209   G4double sthetaGE = std::sqrt(1. - cthetaGE  << 238   G4double sthetaGE = std::sqrt(1.-cthetaGE*cthetaGE);
210                                                   239 
211   G4double phiGE = twopi * G4UniformRand() * r << 240   G4double phiGE = twopi*G4UniformRand()*rad;
212   G4double cphiGE = std::cos(phiGE);              241   G4double cphiGE = std::cos(phiGE);
213   G4double sphiGE = std::sin(phiGE);              242   G4double sphiGE = std::sin(phiGE);
214                                                   243 
215   // Coordinates of the decay gamma with respe << 244   //Coordinates of the decay gamma with respect to the decay positron
216   //                                           << 245 
217   px = sthetaGE * cphiGE;                      << 246   px = sthetaGE*cphiGE;
218   py = sthetaGE * sphiGE;                      << 247   py = sthetaGE*sphiGE;
219   pz = cthetaGE;                                  248   pz = cthetaGE;
220                                                   249 
221   G4ThreeVector direction1(px, py, pz);        << 250   G4ThreeVector direction1(px,py,pz);
222                                                   251 
223   direction1.rotateUz(direction0);                252   direction1.rotateUz(direction0);
224                                                   253 
225   auto daughterparticle1 =                     << 254   G4DynamicParticle * daughterparticle1
226     new G4DynamicParticle(G4MT_daughters[1], d << 255     = new G4DynamicParticle( G4MT_daughters[1], daughtermomentum[1]*direction1);
227                                                   256 
228   products->PushProducts(daughterparticle1);      257   products->PushProducts(daughterparticle1);
229                                                   258 
230   // output message                            << 259 // output message
231 #ifdef G4VERBOSE                                  260 #ifdef G4VERBOSE
232   if (GetVerboseLevel() > 1) {                 << 261   if (GetVerboseLevel()>1) {
233     G4cout << "G4PionRadiativeDecayChannel::De << 262     G4cout << "G4PionRadiativeDecayChannel::DecayIt ";
234     G4cout << " create decay products in rest  << 263     G4cout << "  create decay products in rest frame " <<G4endl;
235     products->DumpInfo();                         264     products->DumpInfo();
236   }                                               265   }
237 #endif                                            266 #endif
238                                                   267 
239   return products;                                268   return products;
                                                   >> 269 
240 }                                                 270 }
241                                                   271