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Geant4/processes/electromagnetic/pii/src/G4PixeCrossSectionHandler.cc

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Differences between /processes/electromagnetic/pii/src/G4PixeCrossSectionHandler.cc (Version 11.3.0) and /processes/electromagnetic/pii/src/G4PixeCrossSectionHandler.cc (Version 8.3)


  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: Maria Grazia Pia (Maria.Grazia.Pia@    
 29 //                                                
 30 // History:                                       
 31 // -----------                                    
 32 // 16 Jun 2008 MGP   Created; Cross section ma    
 33 //                   Documented in:               
 34 //                   M.G. Pia et al., PIXE Sim    
 35 //                   IEEE Trans. Nucl. Sci., v    
 36 //                                                
 37 // -------------------------------------------    
 38                                                   
 39 #include "G4PixeCrossSectionHandler.hh"           
 40 #include "G4PhysicalConstants.hh"                 
 41 #include "G4IInterpolator.hh"                     
 42 #include "G4LogLogInterpolator.hh"                
 43 #include "G4IDataSet.hh"                          
 44 #include "G4DataSet.hh"                           
 45 #include "G4CompositeDataSet.hh"                  
 46 #include "G4PixeShellDataSet.hh"                  
 47 #include "G4ProductionCutsTable.hh"               
 48 #include "G4Material.hh"                          
 49 #include "G4Element.hh"                           
 50 #include "Randomize.hh"                           
 51 #include "G4SystemOfUnits.hh"                     
 52 #include "G4ParticleDefinition.hh"                
 53                                                   
 54 #include <map>                                    
 55 #include <vector>                                 
 56 #include <fstream>                                
 57 #include <sstream>                                
 58 #include <memory>                                 
 59                                                   
 60                                                   
 61 G4PixeCrossSectionHandler::G4PixeCrossSectionH    
 62 {                                                 
 63   crossSections = 0;                              
 64   interpolation = 0;                              
 65   // Initialise with default values               
 66   Initialise(0,"","","",1.*keV,0.1*GeV,200,MeV    
 67   ActiveElements();                               
 68 }                                                 
 69                                                   
 70                                                   
 71 G4PixeCrossSectionHandler::G4PixeCrossSectionH    
 72                  const G4String& modelK,          
 73                  const G4String& modelL,          
 74                  const G4String& modelM,          
 75                  G4double minE,                   
 76                  G4double maxE,                   
 77                  G4int bins,                      
 78                  G4double unitE,                  
 79                  G4double unitData,               
 80                  G4int minZ,                      
 81                  G4int maxZ)                      
 82   : interpolation(algorithm), eMin(minE), eMax    
 83     unit1(unitE), unit2(unitData), zMin(minZ),    
 84 {                                                 
 85   crossSections = 0;                              
 86                                                   
 87   crossModel.push_back(modelK);                   
 88   crossModel.push_back(modelL);                   
 89   crossModel.push_back(modelM);                   
 90                                                   
 91   //std::cout << "PixeCrossSectionHandler cons    
 92   //    << crossModel[0]                          
 93   //    << std::endl;                             
 94                                                   
 95   ActiveElements();                               
 96 }                                                 
 97                                                   
 98 G4PixeCrossSectionHandler::~G4PixeCrossSection    
 99 {                                                 
100   delete interpolation;                           
101   interpolation = 0;                              
102   std::map<G4int,G4IDataSet*,std::less<G4int>     
103                                                   
104   for (pos = dataMap.begin(); pos != dataMap.e    
105     {                                             
106       // The following is a workaround for STL    
107       // which does not support the standard a    
108       // the syntax pos->second                   
109       // G4IDataSet* dataSet = pos->second;       
110       G4IDataSet* dataSet = (*pos).second;        
111       delete dataSet;                             
112     }                                             
113                                                   
114   if (crossSections != 0)                         
115     {                                             
116       std::size_t n = crossSections->size();      
117       for (std::size_t i=0; i<n; ++i)             
118   {                                               
119     delete (*crossSections)[i];                   
120   }                                               
121       delete crossSections;                       
122       crossSections = 0;                          
123     }                                             
124 }                                                 
125                                                   
126 void G4PixeCrossSectionHandler::Initialise(G4I    
127              const G4String& modelK,              
128              const G4String& modelL,              
129              const G4String& modelM,              
130              G4double minE, G4double maxE,        
131              G4int numberOfBins,                  
132              G4double unitE, G4double unitData    
133              G4int minZ, G4int maxZ)              
134 {                                                 
135   if (algorithm != 0)                             
136     {                                             
137       delete interpolation;                       
138       interpolation = algorithm;                  
139     }                                             
140   else                                            
141     {                                             
142       interpolation = CreateInterpolation();      
143     }                                             
144                                                   
145   eMin = minE;                                    
146   eMax = maxE;                                    
147   nBins = numberOfBins;                           
148   unit1 = unitE;                                  
149   unit2 = unitData;                               
150   zMin = minZ;                                    
151   zMax = maxZ;                                    
152                                                   
153   crossModel.push_back(modelK);                   
154   crossModel.push_back(modelL);                   
155   crossModel.push_back(modelM);                   
156                                                   
157 }                                                 
158                                                   
159 void G4PixeCrossSectionHandler::PrintData() co    
160 {                                                 
161   std::map<G4int,G4IDataSet*,std::less<G4int>     
162                                                   
163   for (pos = dataMap.begin(); pos != dataMap.e    
164     {                                             
165       // The following is a workaround for STL    
166       // which does not support the standard a    
167       // the syntax pos->first or pos->second     
168       // G4int z = pos->first;                    
169       // G4IDataSet* dataSet = pos->second;       
170       G4int z = (*pos).first;                     
171       G4IDataSet* dataSet = (*pos).second;        
172       G4cout << "---- Data set for Z = "          
173        << z                                       
174        << G4endl;                                 
175       dataSet->PrintData();                       
176       G4cout << "-----------------------------    
177     }                                             
178 }                                                 
179                                                   
180 void G4PixeCrossSectionHandler::LoadShellData(    
181 {                                                 
182   std::size_t nZ = activeZ.size();                
183   for (std::size_t i=0; i<nZ; ++i)                
184     {                                             
185       G4int Z = (G4int) activeZ[i];               
186       G4IInterpolator* algo = interpolation->C    
187       G4IDataSet* dataSet = new G4PixeShellDat    
188                                                   
189       // Degug printing                           
190       //std::cout << "PixeCrossSectionHandler:    
191       //  << Z                                    
192       //  << ", modelK = "                        
193       //  << crossModel[0]                        
194       //  << " fileName = "                       
195       //  << fileName                             
196       //  << std::endl;                           
197                                                   
198       dataSet->LoadData(fileName);                
199       dataMap[Z] = dataSet;                       
200     }                                             
201                                                   
202   // Build cross sections for materials if not    
203   if (! crossSections)                            
204     {                                             
205       BuildForMaterials();                        
206     }                                             
207                                                   
208 }                                                 
209                                                   
210 void G4PixeCrossSectionHandler::Clear()           
211 {                                                 
212   // Reset the map of data sets: remove the da    
213   std::map<G4int,G4IDataSet*,std::less<G4int>     
214                                                   
215   if(! dataMap.empty())                           
216     {                                             
217       for (pos = dataMap.begin(); pos != dataM    
218   {                                               
219     // The following is a workaround for STL O    
220     // which does not support the standard and    
221     // the syntax pos->first or pos->second       
222     // G4IDataSet* dataSet = pos->second;         
223     G4IDataSet* dataSet = (*pos).second;          
224     delete dataSet;                               
225     dataSet = 0;                                  
226     G4int i = (*pos).first;                       
227     dataMap[i] = 0;                               
228   }                                               
229       dataMap.clear();                            
230     }                                             
231                                                   
232   activeZ.clear();                                
233   ActiveElements();                               
234 }                                                 
235                                                   
236 G4double G4PixeCrossSectionHandler::FindValue(    
237 {                                                 
238   G4double value = 0.;                            
239                                                   
240   std::map<G4int,G4IDataSet*,std::less<G4int>     
241   pos = dataMap.find(Z);                          
242   if (pos!= dataMap.end())                        
243     {                                             
244       // The following is a workaround for STL    
245       // which does not support the standard a    
246       // the syntax pos->first or pos->second     
247       // G4IDataSet* dataSet = pos->second;       
248       G4IDataSet* dataSet = (*pos).second;        
249       value = dataSet->FindValue(energy);         
250     }                                             
251   else                                            
252     {                                             
253       G4cout << "WARNING: G4PixeCrossSectionHa    
254        << Z << G4endl;                            
255     }                                             
256   return value;                                   
257 }                                                 
258                                                   
259 G4double G4PixeCrossSectionHandler::FindValue(    
260                 G4int shellIndex) const           
261 {                                                 
262   G4double value = 0.;                            
263                                                   
264   std::map<G4int,G4IDataSet*,std::less<G4int>     
265   pos = dataMap.find(Z);                          
266   if (pos!= dataMap.end())                        
267     {                                             
268       // The following is a workaround for STL    
269       // which does not support the standard a    
270       // the syntax pos->first or pos->second     
271       // G4IDataSet* dataSet = pos->second;       
272       G4IDataSet* dataSet = (*pos).second;        
273       if (shellIndex >= 0)                        
274   {                                               
275     G4int nComponents = (G4int)dataSet->Number    
276     if(shellIndex < nComponents)                  
277       // The value is the cross section for sh    
278       value = dataSet->GetComponent(shellIndex    
279     else                                          
280       {                                           
281         G4cout << "WARNING: G4PixeCrossSection    
282          << " shellIndex= " << shellIndex         
283          << " for  Z= "                           
284          << Z << G4endl;                          
285       }                                           
286   } else {                                        
287   value = dataSet->FindValue(energy);             
288       }                                           
289     }                                             
290   else                                            
291     {                                             
292       G4cout << "WARNING: G4PixeCrossSectionHa    
293        << Z << G4endl;                            
294     }                                             
295   return value;                                   
296 }                                                 
297                                                   
298                                                   
299 G4double G4PixeCrossSectionHandler::ValueForMa    
300                  G4double energy) const           
301 {                                                 
302   G4double value = 0.;                            
303                                                   
304   const G4ElementVector* elementVector = mater    
305   const G4double* nAtomsPerVolume = material->    
306   std::size_t nElements = material->GetNumberO    
307                                                   
308   for (std::size_t i=0 ; i<nElements ; ++i)       
309     {                                             
310       G4int Z = (G4int) (*elementVector)[i]->G    
311       G4double elementValue = FindValue(Z,ener    
312       G4double nAtomsVol = nAtomsPerVolume[i];    
313       value += nAtomsVol * elementValue;          
314     }                                             
315                                                   
316   return value;                                   
317 }                                                 
318                                                   
319 /*                                                
320   G4IDataSet* G4PixeCrossSectionHandler::Build    
321   {                                               
322   // Builds a CompositeDataSet containing the     
323   // in the material table                        
324                                                   
325   G4DataVector energyVector;                      
326   G4double dBin = std::log10(eMax/eMin) / nBin    
327                                                   
328   for (G4int i=0; i<nBins+1; i++)                 
329   {                                               
330   energyVector.push_back(std::pow(10., std::lo    
331   }                                               
332                                                   
333   // Factory method to build cross sections in    
334   // related to the type of physics process       
335                                                   
336   if (crossSections != 0)                         
337   {  // Reset the list of cross sections          
338   std::vector<G4IDataSet*>::iterator mat;         
339   if (! crossSections->empty())                   
340   {                                               
341   for (mat = crossSections->begin(); mat!= cro    
342   {                                               
343   G4IDataSet* set = *mat;                         
344   delete set;                                     
345   set = 0;                                        
346   }                                               
347   crossSections->clear();                         
348   delete crossSections;                           
349   crossSections = 0;                              
350   }                                               
351   }                                               
352                                                   
353   crossSections = BuildCrossSectionsForMateria    
354                                                   
355   if (crossSections == 0)                         
356   G4Exception("G4PixeCrossSectionHandler::Buil    
357   "pii00000201",                                  
358   FatalException,                                 
359   "crossSections = 0");                           
360                                                   
361   G4IInterpolator* algo = CreateInterpolation(    
362   G4IDataSet* materialSet = new G4CompositeDat    
363                                                   
364   G4DataVector* energies;                         
365   G4DataVector* data;                             
366                                                   
367   const G4ProductionCutsTable* theCoupleTable=    
368   G4ProductionCutsTable::GetProductionCutsTabl    
369   std::size_t numOfCouples = theCoupleTable->G    
370                                                   
371                                                   
372   for (std::size_t m=0; m<numOfCouples; m++)      
373   {                                               
374   energies = new G4DataVector;                    
375   data = new G4DataVector;                        
376   for (G4int bin=0; bin<nBins; bin++)             
377   {                                               
378   G4double energy = energyVector[bin];            
379   energies->push_back(energy);                    
380   G4IDataSet* matCrossSet = (*crossSections)[m    
381   G4double materialCrossSection = 0.0;            
382   G4int nElm = matCrossSet->NumberOfComponents    
383   for(G4int j=0; j<nElm; j++) {                   
384   materialCrossSection += matCrossSet->GetComp    
385   }                                               
386                                                   
387   if (materialCrossSection > 0.)                  
388   {                                               
389   data->push_back(1./materialCrossSection);       
390   }                                               
391   else                                            
392   {                                               
393   data->push_back(DBL_MAX);                       
394   }                                               
395   }                                               
396   G4IInterpolator* algo = CreateInterpolation(    
397   G4IDataSet* dataSet = new G4DataSet(m,energi    
398   materialSet->AddComponent(dataSet);             
399   }                                               
400                                                   
401   return materialSet;                             
402   }                                               
403                                                   
404 */                                                
405                                                   
406 void G4PixeCrossSectionHandler::BuildForMateri    
407 {                                                 
408   // Builds a CompositeDataSet containing the     
409   // in the material table                        
410                                                   
411   G4DataVector energyVector;                      
412   G4double dBin = std::log10(eMax/eMin) / nBin    
413                                                   
414   for (G4int i=0; i<nBins+1; i++)                 
415     {                                             
416       energyVector.push_back(std::pow(10., std    
417     }                                             
418                                                   
419   if (crossSections != 0)                         
420     {  // Reset the list of cross sections        
421       std::vector<G4IDataSet*>::iterator mat;     
422       if (! crossSections->empty())               
423   {                                               
424     for (mat = crossSections->begin(); mat!= c    
425       {                                           
426         G4IDataSet* set = *mat;                   
427         delete set;                               
428         set = 0;                                  
429       }                                           
430     crossSections->clear();                       
431     delete crossSections;                         
432     crossSections = 0;                            
433   }                                               
434     }                                             
435                                                   
436   crossSections = BuildCrossSectionsForMateria    
437                                                   
438   if (crossSections == 0)                         
439     G4Exception("G4PixeCrossSectionHandler::Bu    
440     "pii00000210",                                
441     FatalException,                               
442     ", crossSections = 0");                       
443                                                   
444   return;                                         
445 }                                                 
446                                                   
447                                                   
448 G4int G4PixeCrossSectionHandler::SelectRandomA    
449               G4double e) const                   
450 {                                                 
451   // Select randomly an element within the mat    
452   // determined by the cross sections in the d    
453                                                   
454   G4int nElements = (G4int)material->GetNumber    
455                                                   
456   // Special case: the material consists of on    
457   if (nElements == 1)                             
458     {                                             
459       G4int Z = (G4int) material->GetZ();         
460       return Z;                                   
461     }                                             
462                                                   
463   // Composite material                           
464                                                   
465   const G4ElementVector* elementVector = mater    
466   std::size_t materialIndex = material->GetInd    
467                                                   
468   G4IDataSet* materialSet = (*crossSections)[m    
469   G4double materialCrossSection0 = 0.0;           
470   G4DataVector cross;                             
471   cross.clear();                                  
472   for ( G4int i=0; i < nElements; ++i )           
473     {                                             
474       G4double cr = materialSet->GetComponent(    
475       materialCrossSection0 += cr;                
476       cross.push_back(materialCrossSection0);     
477     }                                             
478                                                   
479   G4double random = G4UniformRand() * material    
480                                                   
481   for (G4int k=0 ; k < nElements ; ++k )          
482     {                                             
483       if (random <= cross[k]) return (G4int) (    
484     }                                             
485   // It should never get here                     
486   return 0;                                       
487 }                                                 
488                                                   
489 /*                                                
490   const G4Element* G4PixeCrossSectionHandler::    
491   G4double e) const                               
492   {                                               
493   // Select randomly an element within the mat    
494   // by the cross sections in the data set        
495                                                   
496   const G4Material* material = couple->GetMate    
497   G4Element* nullElement = 0;                     
498   G4int nElements = material->GetNumberOfEleme    
499   const G4ElementVector* elementVector = mater    
500                                                   
501   // Special case: the material consists of on    
502   if (nElements == 1)                             
503   {                                               
504   G4Element* element = (*elementVector)[0];       
505   return element;                                 
506   }                                               
507   else                                            
508   {                                               
509   // Composite material                           
510                                                   
511   std::size_t materialIndex = couple->GetIndex    
512                                                   
513   G4IDataSet* materialSet = (*crossSections)[m    
514   G4double materialCrossSection0 = 0.0;           
515   G4DataVector cross;                             
516   cross.clear();                                  
517   for (G4int i=0; i<nElements; i++)               
518   {                                               
519   G4double cr = materialSet->GetComponent(i)->    
520   materialCrossSection0 += cr;                    
521   cross.push_back(materialCrossSection0);         
522   }                                               
523                                                   
524   G4double random = G4UniformRand() * material    
525                                                   
526   for (G4int k=0 ; k < nElements ; k++ )          
527   {                                               
528   if (random <= cross[k]) return (*elementVect    
529   }                                               
530   // It should never end up here                  
531   G4cout << "G4PixeCrossSectionHandler::Select    
532   return nullElement;                             
533   }                                               
534   }                                               
535 */                                                
536                                                   
537                                                   
538 G4int G4PixeCrossSectionHandler::SelectRandomS    
539 {                                                 
540   // Select randomly a shell, according to the    
541   // in the data set                              
542                                                   
543   // Note for later improvement: it would be u    
544   // used shells to improve performance           
545                                                   
546   G4int shell = 0;                                
547                                                   
548   G4double totCrossSection = FindValue(Z,e);      
549   G4double random = G4UniformRand() * totCross    
550   G4double partialSum = 0.;                       
551                                                   
552   G4IDataSet* dataSet = nullptr;                  
553   auto pos = dataMap.find(Z);                     
554   // The following is a workaround for STL Obj    
555   // which does not support the standard and d    
556   // the syntax pos->first or pos->second         
557   // if (pos != dataMap.end()) dataSet = pos->    
558   if (pos != dataMap.end()) dataSet = (*pos).s    
559                                                   
560   if (dataSet != nullptr) {                       
561     G4int nShells = (G4int)dataSet->NumberOfCo    
562     for (G4int i=0; i<nShells; ++i)               
563     {                                             
564       const G4IDataSet* shellDataSet = dataSet    
565       if (shellDataSet != 0)                      
566       {                                           
567         G4double value = shellDataSet->FindVal    
568         partialSum += value;                      
569         if (random <= partialSum) return i;       
570       }                                           
571     }                                             
572   }                                               
573   // It should never get here                     
574   return shell;                                   
575 }                                                 
576                                                   
577 void G4PixeCrossSectionHandler::ActiveElements    
578 {                                                 
579   const G4MaterialTable* materialTable = G4Mat    
580   if (materialTable == 0)                         
581     G4Exception("G4PixeCrossSectionHandler::Ac    
582           "pii00000220",                          
583           FatalException,                         
584           "no MaterialTable found");              
585                                                   
586   std::size_t nMaterials = G4Material::GetNumb    
587                                                   
588   for (std::size_t mat=0; mat<nMaterials; ++ma    
589     {                                             
590       const G4Material* material= (*materialTa    
591       const G4ElementVector* elementVector = m    
592       const std::size_t nElements = material->    
593                                                   
594       for (std::size_t iEl=0; iEl<nElements; +    
595   {                                               
596     G4double Z = (*elementVector)[iEl]->GetZ()    
597     if (!(activeZ.contains(Z)) && Z >= zMin &&    
598       {                                           
599         activeZ.push_back(Z);                     
600       }                                           
601   }                                               
602     }                                             
603 }                                                 
604                                                   
605 G4IInterpolator* G4PixeCrossSectionHandler::Cr    
606 {                                                 
607   G4IInterpolator* algorithm = new G4LogLogInt    
608   return algorithm;                               
609 }                                                 
610                                                   
611 G4int G4PixeCrossSectionHandler::NumberOfCompo    
612 {                                                 
613   G4int n = 0;                                    
614                                                   
615   std::map<G4int,G4IDataSet*,std::less<G4int>     
616   pos = dataMap.find(Z);                          
617   if (pos!= dataMap.end())                        
618     {                                             
619       G4IDataSet* dataSet = (*pos).second;        
620       n = (G4int)dataSet->NumberOfComponents()    
621     }                                             
622   else                                            
623     {                                             
624       G4cout << "WARNING: G4PixeCrossSectionHa    
625              << "find Z = "                       
626              << Z << G4endl;                      
627     }                                             
628   return n;                                       
629 }                                                 
630                                                   
631                                                   
632 std::vector<G4IDataSet*>*                         
633 G4PixeCrossSectionHandler::BuildCrossSectionsF    
634 {                                                 
635   G4DataVector* energies;                         
636   G4DataVector* data;                             
637                                                   
638   std::vector<G4IDataSet*>* matCrossSections =    
639                                                   
640   //const G4ProductionCutsTable* theCoupleTabl    
641   //std::size_t numOfCouples = theCoupleTable-    
642                                                   
643   std::size_t nOfBins = energyVector.size();      
644   const auto interpolationAlgo = std::unique_p    
645                                                   
646   const G4MaterialTable* materialTable = G4Mat    
647   if (materialTable == 0)                         
648     G4Exception("G4PixeCrossSectionHandler::Bu    
649     "pii00000230",                                
650     FatalException,                               
651     "no MaterialTable found");                    
652                                                   
653   std::size_t nMaterials = G4Material::GetNumb    
654                                                   
655   for (std::size_t mat=0; mat<nMaterials; ++ma    
656     {                                             
657       const G4Material* material = (*materialT    
658       G4int nElements = (G4int)material->GetNu    
659       const G4ElementVector* elementVector = m    
660       const G4double* nAtomsPerVolume = materi    
661                                                   
662       G4IInterpolator* algo = interpolationAlg    
663                                                   
664       G4IDataSet* setForMat = new G4CompositeD    
665                                                   
666       for (G4int i=0; i<nElements; ++i) {         
667                                                   
668         G4int Z = (G4int) (*elementVector)[i]-    
669         G4double density = nAtomsPerVolume[i];    
670                                                   
671         energies = new G4DataVector;              
672         data = new G4DataVector;                  
673                                                   
674                                                   
675         for (std::size_t bin=0; bin<nOfBins; +    
676     {                                             
677       G4double e = energyVector[bin];             
678       energies->push_back(e);                     
679             G4double cross = 0.;                  
680       if (Z >= zMin && Z <= zMax) cross = dens    
681       data->push_back(cross);                     
682     }                                             
683                                                   
684         G4IInterpolator* algo1 = interpolation    
685         G4IDataSet* elSet = new G4DataSet(i,en    
686         setForMat->AddComponent(elSet);           
687       }                                           
688                                                   
689       matCrossSections->push_back(setForMat);     
690     }                                             
691   return matCrossSections;                        
692 }                                                 
693                                                   
694                                                   
695 G4double G4PixeCrossSectionHandler::Microscopi    
696                   G4double kineticEnergy,         
697                   G4double Z,                     
698                   G4double deltaCut) const        
699 {                                                 
700   // Cross section formula is OK for spin=0, 1    
701   // Calculates the microscopic cross section     
702   // Formula documented in Geant4 Phys. Ref. M    
703   // ( it is called for elements, AtomicNumber    
704                                                   
705     G4double cross = 0.;                          
706                                                   
707   // Particle mass and energy                     
708     G4double particleMass = particleDef->GetPD    
709     G4double energy = kineticEnergy + particle    
710                                                   
711   // Some kinematics                              
712   G4double gamma = energy / particleMass;         
713   G4double beta2 = 1. - 1. / (gamma * gamma);     
714   G4double var = electron_mass_c2 / particleMa    
715   G4double tMax = 2. * electron_mass_c2 * (gam    
716                                                   
717   // Calculate the total cross section            
718                                                   
719   if ( tMax > deltaCut )                          
720     {                                             
721       var = deltaCut / tMax;                      
722       cross = (1. - var * (1. - beta2 * std::l    
723                                                   
724       G4double spin = particleDef->GetPDGSpin(    
725                                                   
726       // +term for spin=1/2 particle              
727       if (spin == 0.5)                            
728   {                                               
729     cross +=  0.5 * (tMax - deltaCut) / (energ    
730   }                                               
731       // +term for spin=1 particle                
732       else if (spin > 0.9 )                       
733   {                                               
734     cross += -std::log(var) / (3.*deltaCut) +     
735       ((5.+1./var)*0.25 /(energy*energy) - bet    
736   }                                               
737       cross *= twopi_mc2_rcl2 * Z / beta2 ;       
738     }                                             
739                                                   
740   //std::cout << "Microscopic = " << cross/bar    
741   //    << ", e = " << kineticEnergy/MeV <<std    
742                                                   
743   return cross;                                   
744 }                                                 
745                                                   
746