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Geant4/processes/electromagnetic/standard/src/G4XrayRayleighModel.cc

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Diff markup

Differences between /processes/electromagnetic/standard/src/G4XrayRayleighModel.cc (Version 11.3.0) and /processes/electromagnetic/standard/src/G4XrayRayleighModel.cc (Version 3.0)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 //                                                
 27 //                                                
 28 // Author: Vladimir Grichine                      
 29 //                                                
 30 // History:                                       
 31 //                                                
 32 // 14.10.12 V.Grichine, update of xsc and angu    
 33 // 25.05.2011   first implementation              
 34                                                   
 35 #include "G4XrayRayleighModel.hh"                 
 36 #include "G4PhysicalConstants.hh"                 
 37 #include "G4SystemOfUnits.hh"                     
 38                                                   
 39 //////////////////////////////////////////////    
 40                                                   
 41 const G4double G4XrayRayleighModel::fCofA = 2.    
 42                                                   
 43 const G4double G4XrayRayleighModel::fCofR = 8.    
 44                                                   
 45 //////////////////////////////////////////////    
 46                                                   
 47 G4XrayRayleighModel::G4XrayRayleighModel(const    
 48                const G4String& nam)               
 49   :G4VEmModel(nam),isInitialised(false)           
 50 {                                                 
 51   fParticleChange = nullptr;                      
 52   lowEnergyLimit  = 250*eV;                       
 53   highEnergyLimit = 10.*MeV;                      
 54   fFormFactor     = 0.0;                          
 55                                                   
 56   //  SetLowEnergyLimit(lowEnergyLimit);          
 57   SetHighEnergyLimit(highEnergyLimit);            
 58   //                                              
 59   verboseLevel= 0;                                
 60   // Verbosity scale:                             
 61   // 0 = nothing                                  
 62   // 1 = warning for energy non-conservation      
 63   // 2 = details of energy budget                 
 64   // 3 = calculation of cross sections, file o    
 65   // 4 = entering in methods                      
 66                                                   
 67   if(verboseLevel > 0)                            
 68   {                                               
 69     G4cout << "Xray Rayleigh is constructed "     
 70      << "Energy range: "                          
 71      << lowEnergyLimit / eV << " eV - "           
 72      << highEnergyLimit / MeV << " MeV"           
 73      << G4endl;                                   
 74   }                                               
 75 }                                                 
 76                                                   
 77 //////////////////////////////////////////////    
 78                                                   
 79 G4XrayRayleighModel::~G4XrayRayleighModel() =     
 80                                                   
 81 //////////////////////////////////////////////    
 82                                                   
 83 void G4XrayRayleighModel::Initialise(const G4P    
 84             const G4DataVector& cuts)             
 85 {                                                 
 86   if (verboseLevel > 3)                           
 87   {                                               
 88     G4cout << "Calling G4XrayRayleighModel::In    
 89   }                                               
 90                                                   
 91   InitialiseElementSelectors(particle,cuts);      
 92                                                   
 93                                                   
 94   if(isInitialised) return;                       
 95   fParticleChange = GetParticleChangeForGamma(    
 96   isInitialised = true;                           
 97                                                   
 98 }                                                 
 99                                                   
100 //////////////////////////////////////////////    
101                                                   
102 G4double G4XrayRayleighModel::ComputeCrossSect    
103                                        const G    
104                                              G    
105                                              G    
106                                              G    
107 {                                                 
108   if (verboseLevel > 3)                           
109   {                                               
110     G4cout << "Calling CrossSectionPerAtom() o    
111   }                                               
112   if (gammaEnergy < lowEnergyLimit || gammaEne    
113   {                                               
114     return 0.0;                                   
115   }                                               
116   G4double k   = gammaEnergy/hbarc;               
117            k  *= Bohr_radius;                     
118   G4double p0  =  0.680654;                       
119   G4double p1  = -0.0224188;                      
120   G4double lnZ = std::log(Z);                     
121                                                   
122   G4double lna = p0 + p1*lnZ;                     
123                                                   
124   G4double  alpha = std::exp(lna);                
125                                                   
126   G4double fo   = std::pow(k, alpha);             
127                                                   
128   p0 = 3.68455;                                   
129   p1 = -0.464806;                                 
130   lna = p0 + p1*lnZ;                              
131                                                   
132   fo *= 0.01*std::exp(lna);                       
133                                                   
134   fFormFactor = fo;                               
135                                                   
136   G4double b    = 1. + 2.*fo;                     
137   G4double b2   = b*b;                            
138   G4double b3   = b*b2;                           
139                                                   
140   G4double xsc  = fCofR*Z*Z/b3;                   
141            xsc *= fo*fo + (1. + fo)*(1. + fo);    
142                                                   
143                                                   
144   return   xsc;                                   
145                                                   
146 }                                                 
147                                                   
148 //////////////////////////////////////////////    
149                                                   
150 void G4XrayRayleighModel::SampleSecondaries(st    
151                                             co    
152                                             co    
153                                             G4    
154                                             G4    
155 {                                                 
156   if ( verboseLevel > 3)                          
157   {                                               
158     G4cout << "Calling SampleSecondaries() of     
159   }                                               
160   G4double photonEnergy0 = aDPGamma->GetKineti    
161                                                   
162   G4ParticleMomentum photonDirection0 = aDPGam    
163                                                   
164                                                   
165   // Sample the angle of the scattered photon     
166   // according to 1 + cosTheta*cosTheta distri    
167                                                   
168   G4double cosDipole, cosTheta, sinTheta;         
169   G4double c, delta, cofA, signc = 1., a, powe    
170                                                   
171   c = 4. - 8.*G4UniformRand();                    
172   a = c;                                          
173                                                   
174   if( c < 0. )                                    
175   {                                               
176     signc = -1.;                                  
177     a     = -c;                                   
178   }                                               
179   delta  = std::sqrt(a*a+4.);                     
180   delta += a;                                     
181   delta *= 0.5;                                   
182   cofA = -signc*std::pow(delta, power);           
183   cosDipole = cofA - 1./cofA;                     
184                                                   
185   // select atom                                  
186   const G4Element* elm = SelectTargetAtom(coup    
187                                           phot    
188   G4double Z = elm->GetZ();                       
189                                                   
190   G4double k   = photonEnergy0/hbarc;             
191            k  *= Bohr_radius;                     
192   G4double p0  =  0.680654;                       
193   G4double p1  = -0.0224188;                      
194   G4double lnZ = std::log(Z);                     
195                                                   
196   G4double lna = p0 + p1*lnZ;                     
197                                                   
198   G4double  alpha = std::exp(lna);                
199                                                   
200   G4double fo   = std::pow(k, alpha);             
201                                                   
202   p0 = 3.68455;                                   
203   p1 = -0.464806;                                 
204   lna = p0 + p1*lnZ;                              
205                                                   
206   fo *= 0.01*pi*std::exp(lna);                    
207                                                   
208                                                   
209   G4double beta = fo/(1 + fo);                    
210                                                   
211   cosTheta = (cosDipole + beta)/(1. + cosDipol    
212                                                   
213                                                   
214   if( cosTheta >  1.) cosTheta =  1.;             
215   if( cosTheta < -1.) cosTheta = -1.;             
216                                                   
217   sinTheta = std::sqrt( (1. - cosTheta)*(1. +     
218                                                   
219   // Scattered photon angles. ( Z - axis along    
220                                                   
221   G4double phi = twopi * G4UniformRand() ;        
222   G4double dirX = sinTheta*std::cos(phi);         
223   G4double dirY = sinTheta*std::sin(phi);         
224   G4double dirZ = cosTheta;                       
225                                                   
226   // Update G4VParticleChange for the scattere    
227                                                   
228   G4ThreeVector photonDirection1(dirX, dirY, d    
229   photonDirection1.rotateUz(photonDirection0);    
230   fParticleChange->ProposeMomentumDirection(ph    
231                                                   
232   fParticleChange->SetProposedKineticEnergy(ph    
233 }                                                 
234                                                   
235                                                   
236