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Geant4/processes/electromagnetic/lowenergy/src/G4JAEAElasticScatteringModel.cc

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Differences between /processes/electromagnetic/lowenergy/src/G4JAEAElasticScatteringModel.cc (Version 11.3.0) and /processes/electromagnetic/lowenergy/src/G4JAEAElasticScatteringModel.cc (Version 5.2.p1)


  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   Authors:                                        
 28                                                   
 29   Updated 15 November 2019                        
 30                                                   
 31   Updates:                                        
 32   1. Change reading method for cross section d    
 33   2. Add warning not to use with polarized pho    
 34                                                   
 35   M. Omer and R. Hajima  on   17 October 2016     
 36   contact:                                        
 37   omer.mohamed@jaea.go.jp and hajima.ryoichi@q    
 38   Publication Information:                        
 39   1- M. Omer, R. Hajima, Including Delbrück s    
 40   Nucl. Instrum. Methods Phys. Res. Sect. B, v    
 41   https://doi.org/10.1016/j.nimb.2017.05.028      
 42   2- M. Omer, R. Hajima, Geant4 physics proces    
 43   JAEA Technical Report 2018-007, 2018.           
 44   https://doi.org/10.11484/jaea-data-code-2018    
 45 */                                                
 46 #include "G4JAEAElasticScatteringModel.hh"        
 47 #include "G4AutoLock.hh"                          
 48 #include "G4SystemOfUnits.hh"                     
 49                                                   
 50 using namespace std;                              
 51 namespace { G4Mutex G4JAEAElasticScatteringMod    
 52                                                   
 53 //....oooOO0OOooo........oooOO0OOooo........oo    
 54 //....oooOO0OOooo........oooOO0OOooo........oo    
 55                                                   
 56 G4PhysicsFreeVector* G4JAEAElasticScatteringMo    
 57 G4DataVector* G4JAEAElasticScatteringModel::ES    
 58                                                   
 59 G4JAEAElasticScatteringModel::G4JAEAElasticSca    
 60   :G4VEmModel("G4JAEAElasticScatteringModel"),    
 61 {                                                 
 62   fParticleChange = nullptr;                      
 63   //Low energy limit for G4JAEAElasticScatteri    
 64   lowEnergyLimit  = 10 * keV;                     
 65                                                   
 66   verboseLevel= 0;                                
 67   // Verbosity scale for debugging purposes:      
 68   // 0 = nothing                                  
 69   // 1 = calculation of cross sections, file o    
 70   // 2 = entering in methods                      
 71                                                   
 72   if(verboseLevel > 0)                            
 73     {                                             
 74       G4cout << "G4JAEAElasticScatteringModel     
 75     }                                             
 76 }                                                 
 77                                                   
 78 //....oooOO0OOooo........oooOO0OOooo........oo    
 79                                                   
 80 G4JAEAElasticScatteringModel::~G4JAEAElasticSc    
 81 {                                                 
 82   if(IsMaster()) {                                
 83     for(G4int i=0; i<=maxZ; ++i) {                
 84       if(dataCS[i]) {                             
 85   delete dataCS[i];                               
 86   dataCS[i] = nullptr;                            
 87       }                                           
 88       if (ES_Data[i]){                            
 89   delete ES_Data[i];                              
 90   ES_Data[i] = nullptr;                           
 91       }                                           
 92     }                                             
 93   }                                               
 94 }                                                 
 95                                                   
 96 //....oooOO0OOooo........oooOO0OOooo........oo    
 97                                                   
 98 void G4JAEAElasticScatteringModel::Initialise(    
 99                 const G4DataVector& cuts)         
100 {                                                 
101   if (verboseLevel > 1)                           
102     {                                             
103       G4cout << "Calling Initialise() of G4JAE    
104        << "Energy range: "                        
105        << LowEnergyLimit() / eV << " eV - "       
106        << HighEnergyLimit() / GeV << " GeV"       
107        << G4endl;                                 
108     }                                             
109                                                   
110   if(IsMaster()) {                                
111     // Initialise element selector                
112     InitialiseElementSelectors(particle, cuts)    
113                                                   
114     // Access to elements                         
115     const char* path = G4FindDataDir("G4LEDATA    
116     G4ProductionCutsTable* theCoupleTable =       
117       G4ProductionCutsTable::GetProductionCuts    
118     G4int numOfCouples = (G4int)theCoupleTable    
119                                                   
120     for(G4int i=0; i<numOfCouples; ++i)           
121       {                                           
122   const G4MaterialCutsCouple* couple =            
123     theCoupleTable->GetMaterialCutsCouple(i);     
124   const G4Material* material = couple->GetMate    
125   const G4ElementVector* theElementVector = ma    
126   std::size_t nelm = material->GetNumberOfElem    
127                                                   
128   for (std::size_t j=0; j<nelm; ++j)              
129     {                                             
130       G4int Z = G4lrint((*theElementVector)[j]    
131       if(Z < 1)          { Z = 1; }               
132       else if(Z > maxZ)  { Z = maxZ; }            
133       if( (!dataCS[Z]) ) { ReadData(Z, path);     
134     }                                             
135       }                                           
136   }                                               
137                                                   
138   if(isInitialised) { return; }                   
139   fParticleChange = GetParticleChangeForGamma(    
140   isInitialised = true;                           
141                                                   
142 }                                                 
143                                                   
144 //....oooOO0OOooo........oooOO0OOooo........oo    
145                                                   
146 void G4JAEAElasticScatteringModel::InitialiseL    
147                G4VEmModel* masterModel)           
148 {                                                 
149   SetElementSelectors(masterModel->GetElementS    
150 }                                                 
151                                                   
152 //....oooOO0OOooo........oooOO0OOooo........oo    
153                                                   
154 void G4JAEAElasticScatteringModel::ReadData(st    
155 {                                                 
156   if (verboseLevel > 1)                           
157     {                                             
158       G4cout << "Calling ReadData() of G4JAEAE    
159        << G4endl;                                 
160     }                                             
161                                                   
162   if(dataCS[Z]) { return; }                       
163                                                   
164   const char* datadir = path;                     
165                                                   
166   if(!datadir)                                    
167     {                                             
168       datadir = G4FindDataDir("G4LEDATA");        
169       if(!datadir)                                
170   {                                               
171     G4Exception("G4JAEAElasticScatteringModel:    
172           FatalException,                         
173           "Environment variable G4LEDATA not d    
174     return;                                       
175   }                                               
176     }                                             
177                                                   
178   /* Reading all data in the form of 183 * 300    
179      The first row is the energy, and the seco    
180      Rows from the 3rd to the 183rd are the di    
181      resolution of 1 degree.                      
182   */                                              
183   std::ostringstream ostCS;                       
184   ostCS << datadir << "/JAEAESData/amp_Z_" <<     
185   std::ifstream ES_Data_Buffer(ostCS.str().c_s    
186   if( !ES_Data_Buffer.is_open() )                 
187     {                                             
188       G4ExceptionDescription ed;                  
189       ed << "G4JAEAElasticScattertingModel dat    
190    << "> is not opened!" << G4endl;               
191       G4Exception("G4JAEAElasticScatteringMode    
192       ed,                                         
193       "G4LEDATA version should be G4EMLOW7.11     
194       return;                                     
195     }                                             
196   else                                            
197     {                                             
198       if(verboseLevel > 3) {                      
199   G4cout << "File " << ostCS.str()                
200          << " is opened by G4JAEAElasticScatte    
201       }                                           
202     }                                             
203   if (!ES_Data[Z])                                
204     ES_Data[Z] = new G4DataVector();              
205                                                   
206   G4float buffer_var;                             
207   while (ES_Data_Buffer.read(reinterpret_cast<    
208     {                                             
209       ES_Data[Z]->push_back(buffer_var);          
210     }                                             
211                                                   
212   /*                                              
213     Writing the total cross section data to a     
214     This provides an interpolation of the Ener    
215   */                                              
216                                                   
217   dataCS[Z] = new G4PhysicsFreeVector(300,0.01    
218   //Note that the total cross section and ener    
219   for (G4int i=0;i<300;++i)                       
220     dataCS[Z]->PutValues(i,10.*i*1e-3,ES_Data[    
221                                                   
222   // Activation of spline interpolation           
223   dataCS[Z] ->FillSecondDerivatives();            
224                                                   
225 }                                                 
226                                                   
227 //....oooOO0OOooo........oooOO0OOooo........oo    
228                                                   
229 G4double G4JAEAElasticScatteringModel::Compute    
230                   const G4ParticleDefinition*,    
231                   G4double GammaEnergy,           
232                   G4double Z, G4double,           
233                   G4double, G4double)             
234 {                                                 
235   if (verboseLevel > 2)                           
236     {                                             
237       G4cout << "G4JAEAElasticScatteringModel:    
238        << G4endl;                                 
239     }                                             
240                                                   
241   if(GammaEnergy < lowEnergyLimit) { return 0.    
242                                                   
243   G4double xs = 0.0;                              
244                                                   
245   G4int intZ = G4lrint(Z);                        
246                                                   
247   if(intZ < 1 || intZ > maxZ) { return xs; }      
248                                                   
249   G4PhysicsFreeVector* pv = dataCS[intZ];         
250                                                   
251   // if element was not initialised               
252   // do initialisation safely for MT mode         
253   if(!pv) {                                       
254     InitialiseForElement(0, intZ);                
255     pv = dataCS[intZ];                            
256     if(!pv) { return xs; }                        
257   }                                               
258                                                   
259   G4int n = G4int(pv->GetVectorLength() - 1);     
260                                                   
261   G4double e = GammaEnergy;                       
262   if(e >= pv->Energy(n)) {                        
263     xs = (*pv)[n];                                
264   } else if(e >= pv->Energy(0)) {                 
265     xs = pv->Value(e);                            
266   }                                               
267                                                   
268   if(verboseLevel > 0)                            
269     {                                             
270       G4cout  <<  "****** DEBUG: tcs value for    
271         << e << G4endl;                           
272       G4cout  <<  "  cs (Geant4 internal unit)    
273       G4cout  <<  "    -> first E*E*cs value i    
274         << G4endl;                                
275       G4cout  <<  "    -> last  E*E*cs value i    
276         << G4endl;                                
277       G4cout  <<  "***************************    
278         << G4endl;                                
279     }                                             
280                                                   
281   return (xs);                                    
282 }                                                 
283                                                   
284 //....oooOO0OOooo........oooOO0OOooo........oo    
285                                                   
286 void G4JAEAElasticScatteringModel::SampleSecon    
287                  std::vector<G4DynamicParticle    
288                  const G4MaterialCutsCouple* c    
289                  const G4DynamicParticle* aDyn    
290                  G4double, G4double)              
291 {                                                 
292   if (verboseLevel > 2) {                         
293     G4cout << "Calling SampleSecondaries() of     
294      << G4endl;                                   
295   }                                               
296                                                   
297   G4double photonEnergy0 = aDynamicGamma->GetK    
298                                                   
299   // Absorption of low-energy gamma               
300   if (photonEnergy0 <= lowEnergyLimit)            
301     {                                             
302       fParticleChange->ProposeTrackStatus(fSto    
303       fParticleChange->SetProposedKineticEnerg    
304       fParticleChange->ProposeLocalEnergyDepos    
305       return;                                     
306     }                                             
307                                                   
308   //Warning if the incoming photon has polariz    
309   G4double Xi1=0, Xi2=0, Xi3=0;                   
310   G4ThreeVector gammaPolarization0 = aDynamicG    
311   Xi1=gammaPolarization0.x();                     
312   Xi2=gammaPolarization0.y();                     
313   Xi3=gammaPolarization0.z();                     
314                                                   
315   G4double polarization_magnitude=Xi1*Xi1+Xi2*    
316   if ((polarization_magnitude)>0 || (Xi1*Xi1>0    
317     {                                             
318       G4cout<<"WARNING: G4JAEAElasticScatterin    
319       <<G4endl;                                   
320       G4cout<<"The event is ignored."<<G4endl;    
321       return;                                     
322     }                                             
323                                                   
324   // Select randomly one element in the curren    
325   const G4ParticleDefinition* particle =  aDyn    
326   const G4Element* elm = SelectRandomAtom(coup    
327   G4int Z = G4lrint(elm->GetZ());                 
328                                                   
329   G4int energyindex=round(100*photonEnergy0)-1    
330   /*                                              
331     Getting the normalized probablity distrbut    
332     normalization factor to create the probabi    
333   */                                              
334   G4double a1=0, a2=0, a3=0,a4=0;                 
335   G4double normdist=0;                            
336   for (G4int i=0;i<=180;++i)                      
337     {                                             
338       a1=ES_Data[Z]->at(4*i+300+181*4*(energyi    
339       a2=ES_Data[Z]->at(4*i+1+300+181*4*(energ    
340       a3=ES_Data[Z]->at(4*i+2+300+181*4*(energ    
341       a4=ES_Data[Z]->at(4*i+3+300+181*4*(energ    
342       distribution[i]=a1*a1+a2*a2+a3*a3+a4*a4;    
343       normdist += distribution[i];                
344     }                                             
345                                                   
346   //Create the cummulative distribution functi    
347   for (G4int i =0;i<=180;++i)                     
348     pdf[i]=distribution[i]/normdist;              
349   cdf[0]=0;                                       
350   G4double cdfsum =0;                             
351   for (G4int i=0; i<=180;++i)                     
352     {                                             
353       cdfsum=cdfsum+pdf[i];                       
354       cdf[i]=cdfsum;                              
355     }                                             
356   //Sampling the polar angle by inverse transf    
357   G4double r = G4UniformRand();                   
358   G4double *cdfptr=lower_bound(cdf,cdf+181,r);    
359   G4int cdfindex = (G4int)(cdfptr-cdf-1);         
360   G4double cdfinv = (r-cdf[cdfindex])/(cdf[cdf    
361   G4double theta = (cdfindex+cdfinv)/180.;        
362   //polar is now ready                            
363   theta = theta*CLHEP::pi;                        
364                                                   
365                                                   
366   /* Alternative sampling using CLHEP function    
367      CLHEP::RandGeneral GenDistTheta(distribut    
368      G4double theta = CLHEP::pi*GenDistTheta.s    
369      theta =theta*CLHEP::pi;    //polar is now    
370   */                                              
371                                                   
372   //Azimuth is uniformally distributed            
373   G4double phi  = CLHEP::twopi*G4UniformRand()    
374                                                   
375   G4ThreeVector finaldirection(sin(theta)*cos(    
376   finaldirection.rotateUz(aDynamicGamma->GetMo    
377   //Sampling the Final State                      
378   fParticleChange->ProposeMomentumDirection(fi    
379   fParticleChange->SetProposedKineticEnergy(ph    
380 }                                                 
381                                                   
382 //....oooOO0OOooo........oooOO0OOooo........oo    
383                                                   
384 void                                              
385 G4JAEAElasticScatteringModel::InitialiseForEle    
386                G4int Z)                           
387 {                                                 
388   G4AutoLock l(&G4JAEAElasticScatteringModelMu    
389   if(!dataCS[Z]) { ReadData(Z); }                 
390   l.unlock();                                     
391 }                                                 
392                                                   
393 //....oooOO0OOooo........oooOO0OOooo........oo    
394