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Geant4/examples/advanced/eRosita/physics/src/G4RDAtomicDeexcitation.cc

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Differences between /examples/advanced/eRosita/physics/src/G4RDAtomicDeexcitation.cc (Version 11.3.0) and /examples/advanced/eRosita/physics/src/G4RDAtomicDeexcitation.cc (Version 8.3.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 //                                                
 28 // Authors: Elena Guardincerri (Elena.Guardinc    
 29 //          Alfonso Mantero (Alfonso.Mantero@g    
 30 //                                                
 31 // History:                                       
 32 // -----------                                    
 33 //                                                
 34 //  16 Sept 2001  First committed to cvs          
 35 //  12 Sep  2003  Bug in auger production fixe    
 36 //                                                
 37 // -------------------------------------------    
 38                                                   
 39 #include "G4RDAtomicDeexcitation.hh"              
 40 #include "Randomize.hh"                           
 41 #include "G4PhysicalConstants.hh"                 
 42 #include "G4SystemOfUnits.hh"                     
 43 #include "G4Gamma.hh"                             
 44 #include "G4Electron.hh"                          
 45 #include "G4RDAtomicTransitionManager.hh"         
 46 #include "G4RDFluoTransition.hh"                  
 47                                                   
 48 G4RDAtomicDeexcitation::G4RDAtomicDeexcitation    
 49   minGammaEnergy(100.*eV),                        
 50   minElectronEnergy(100.*eV),                     
 51   fAuger(false)                                   
 52 {}                                                
 53                                                   
 54 G4RDAtomicDeexcitation::~G4RDAtomicDeexcitatio    
 55 {}                                                
 56                                                   
 57 std::vector<G4DynamicParticle*>* G4RDAtomicDee    
 58 {                                                 
 59                                                   
 60   std::vector<G4DynamicParticle*>* vectorOfPar    
 61                                                   
 62   vectorOfParticles = new std::vector<G4Dynami    
 63   G4DynamicParticle* aParticle;                   
 64   G4int provShellId = 0;                          
 65   G4int counter = 0;                              
 66                                                   
 67   // The aim of this loop is to generate more     
 68   // from the same ionizing event                 
 69   do                                              
 70     {                                             
 71       if (counter == 0)                           
 72   // First call to GenerateParticles(...):        
 73   // givenShellId is given by the process         
 74   {                                               
 75     provShellId = SelectTypeOfTransition(Z, gi    
 76     //std::cout << "AtomicDeexcitation::Genera    
 77     //<< provShellId << std::endl;                
 78                                                   
 79     if  ( provShellId >0)                         
 80       {                                           
 81         aParticle = GenerateFluorescence(Z,giv    
 82         //std::cout << "AtomicDeexcitation::Ge    
 83       }                                           
 84     else if ( provShellId == -1)                  
 85       {                                           
 86         aParticle = GenerateAuger(Z, givenShel    
 87         //std::cout << "AtomicDeexcitation::Ge    
 88       }                                           
 89     else                                          
 90       {                                           
 91         G4Exception("G4RDAtomicDeexcitation::G    
 92                           "InvalidSetup", Fata    
 93                           "Starting shell unco    
 94       }                                           
 95   }                                               
 96       else                                        
 97   // Following calls to GenerateParticles(...)    
 98   // newShellId is given by GenerateFluorescen    
 99   {                                               
100     provShellId = SelectTypeOfTransition(Z,new    
101     //std::cout << "AtomicDeexcitation::Genera    
102     //<< provShellId << ", new ShellId = "<< n    
103     //<< std::endl;                               
104                                                   
105                                                   
106     if  (provShellId >0)                          
107       {                                           
108         aParticle = GenerateFluorescence(Z,new    
109         //std::cout << "AtomicDeexcitation::Ge    
110       }                                           
111     else if ( provShellId == -1)                  
112       {                                           
113         aParticle = GenerateAuger(Z, newShellI    
114         //std::cout << "AtomicDeexcitation::Ge    
115       }                                           
116     else                                          
117       {                                           
118         G4Exception("G4RDAtomicDeexcitation::G    
119                           "InvalidSetup", Fata    
120                           "Starting shell unco    
121       }                                           
122   }                                               
123       counter++;                                  
124       if (aParticle != 0) {vectorOfParticles->    
125       else {provShellId = -2;}                    
126     }                                             
127                                                   
128   // Look this in a particular way: only one a    
129   while (provShellId > -2);                       
130                                                   
131   return vectorOfParticles;                       
132 }                                                 
133                                                   
134 G4int G4RDAtomicDeexcitation::SelectTypeOfTran    
135 {                                                 
136   if (shellId <=0 )                               
137     {                                             
138       G4Exception("G4RDAtomicDeexcitation::Sel    
139                   "InvalidCondition", FatalExc    
140                   "Zero or negative shellId!")    
141     }                                             
142                                                   
143   const G4RDAtomicTransitionManager*  transiti    
144         G4RDAtomicTransitionManager::Instance(    
145   G4int provShellId = -1;                         
146   G4int shellNum = 0;                             
147   G4int maxNumOfShells = transitionManager->Nu    
148                                                   
149   //std::cout << "AtomicDeexcitation::SelectTy    
150   //<< maxNumOfShells<< std::endl;                
151                                                   
152   const G4RDFluoTransition* refShell = transit    
153                                                   
154   // This loop gives shellNum the value of the    
155   // in the vector storing the list of the she    
156   // a radiative transition                       
157   if ( shellId <= refShell->FinalShellId())       
158     {                                             
159       while (shellId != transitionManager->Rea    
160   {                                               
161     if(shellNum ==maxNumOfShells-1)               
162       {                                           
163         break;                                    
164       }                                           
165     shellNum++;                                   
166   }                                               
167       G4int transProb = 0; //AM change 29/6/07    
168                                                   
169       G4double partialProb = G4UniformRand();     
170       G4double partSum = 0;                       
171       const G4RDFluoTransition* aShell = trans    
172       G4int trSize =  (aShell->TransitionProba    
173                                                   
174       // Loop over the shells wich can provide    
175       // radiative transition towards shellId:    
176       // in every loop the partial sum of the     
177       // is calculated and compared with a ran    
178       // If the partial sum is greater, the sh    
179       // is chosen as the starting shell for a    
180       // and its identity is returned             
181       // Else, terminateded the loop, -1 is re    
182       while(transProb < trSize){                  
183                                                   
184    partSum += aShell->TransitionProbability(tr    
185                                                   
186    if(partialProb <= partSum)                     
187      {                                            
188        provShellId = aShell->OriginatingShellI    
189        break;                                     
190      }                                            
191    transProb++;                                   
192       }                                           
193                                                   
194       // here provShellId is the right one or     
195       // if -1, the control is passed to the A    
196     }                                             
197                                                   
198                                                   
199                                                   
200   else                                            
201     {                                             
202                                                   
203      provShellId = -1;                            
204                                                   
205     }                                             
206   return provShellId;                             
207 }                                                 
208                                                   
209 G4DynamicParticle* G4RDAtomicDeexcitation::Gen    
210                     G4int shellId,                
211                     G4int provShellId )           
212 {                                                 
213                                                   
214                                                   
215   const G4RDAtomicTransitionManager*  transiti    
216   //  G4int provenienceShell = provShellId;       
217                                                   
218   //isotropic angular distribution for the out    
219   G4double newcosTh = 1.-2.*G4UniformRand();      
220   G4double  newsinTh = std::sqrt(1.-newcosTh*n    
221   G4double newPhi = twopi*G4UniformRand();        
222                                                   
223   G4double xDir =  newsinTh*std::sin(newPhi);     
224   G4double yDir = newsinTh*std::cos(newPhi);      
225   G4double zDir = newcosTh;                       
226                                                   
227   G4ThreeVector newGammaDirection(xDir,yDir,zD    
228                                                   
229   G4int shellNum = 0;                             
230   G4int maxNumOfShells = transitionManager->Nu    
231                                                   
232   // find the index of the shell named shellId    
233   while (shellId != transitionManager->           
234    ReachableShell(Z,shellNum)->FinalShellId())    
235     {                                             
236       if(shellNum == maxNumOfShells-1)            
237   {                                               
238     break;                                        
239   }                                               
240       shellNum++;                                 
241     }                                             
242   // number of shell from wich an electron can    
243   size_t transitionSize = transitionManager->     
244     ReachableShell(Z,shellNum)->OriginatingShe    
245                                                   
246   size_t index = 0;                               
247                                                   
248   // find the index of the shell named provShe    
249   // storing the shells from which shellId can    
250   while (provShellId != transitionManager->       
251    ReachableShell(Z,shellNum)->OriginatingShel    
252     {                                             
253       if(index ==  transitionSize-1)              
254   {                                               
255     break;                                        
256   }                                               
257       index++;                                    
258     }                                             
259   // energy of the gamma leaving provShellId f    
260   G4double transitionEnergy = transitionManage    
261     ReachableShell(Z,shellNum)->TransitionEner    
262                                                   
263   // This is the shell where the new vacancy i    
264   // shell where the electron came from           
265   newShellId = transitionManager->                
266     ReachableShell(Z,shellNum)->OriginatingShe    
267                                                   
268                                                   
269   G4DynamicParticle* newPart = new G4DynamicPa    
270                  newGammaDirection,               
271                  transitionEnergy);               
272   return newPart;                                 
273 }                                                 
274                                                   
275 G4DynamicParticle* G4RDAtomicDeexcitation::Gen    
276 {                                                 
277   if(!fAuger) return 0;                           
278                                                   
279                                                   
280   const G4RDAtomicTransitionManager*  transiti    
281         G4RDAtomicTransitionManager::Instance(    
282                                                   
283                                                   
284                                                   
285   if (shellId <=0 )                               
286     {                                             
287       G4Exception("G4RDAtomicDeexcitation::Gen    
288                   "InvalidCondition", FatalExc    
289                   "Zero or negative shellId!")    
290     }                                             
291                                                   
292   // G4int provShellId = -1;                      
293   G4int maxNumOfShells = transitionManager->Nu    
294                                                   
295   const G4RDAugerTransition* refAugerTransitio    
296         transitionManager->ReachableAugerShell    
297                                                   
298                                                   
299   // This loop gives to shellNum the value of     
300   // in the vector storing the list of the vac    
301   // that can originate a NON-radiative transi    
302                                                   
303   // ---- MGP ---- Next line commented out to     
304   // G4int p = refAugerTransition->FinalShellI    
305                                                   
306   G4int shellNum = 0;                             
307                                                   
308                                                   
309   if ( shellId <= refAugerTransition->FinalShe    
310     //"FinalShellId" is final from the point o    
311     // being the Id of the shell in which ther    
312     {                                             
313       G4int pippo = transitionManager->Reachab    
314       if (shellId  != pippo ) {                   
315   do {                                            
316     shellNum++;                                   
317     if(shellNum == maxNumOfShells)                
318       {                                           
319 //          G4cout << "G4RDAtomicDeexcitation     
320 //        G4cout << "Absorbed enrgy deposited     
321         return 0;                                 
322 //        //  G4Exception("G4RDAtomicDeexcitat    
323       }                                           
324   }                                               
325   while (shellId != (transitionManager->Reacha    
326       }                                           
327     /*  {                                         
328                                                   
329     if(shellNum == maxNumOfShells-1)              
330       {                                           
331         G4Exception("G4RDAtomicDeexcitation: N    
332       }                                           
333     shellNum++;                                   
334     }*/                                           
335                                                   
336                                                   
337                                                   
338                                                   
339       // Now we have that shellnum is the shel    
340                                                   
341       //      G4cout << " the index of the she    
342                                                   
343       // But we have now to select two shells:    
344       // and another for the auger emission.      
345                                                   
346       G4int transitionLoopShellIndex = 0;         
347       G4double partSum = 0;                       
348       const G4RDAugerTransition* anAugerTransi    
349             transitionManager->ReachableAugerS    
350                                                   
351       //      G4cout << " corresponding to the    
352                                                   
353                                                   
354       G4int transitionSize =                      
355             (anAugerTransition->TransitionOrig    
356       while (transitionLoopShellIndex < transi    
357                                                   
358         std::vector<G4int>::const_iterator pos    
359                anAugerTransition->TransitionOr    
360                                                   
361         G4int transitionLoopShellId = *(pos+tr    
362         G4int numberOfPossibleAuger =             
363               (anAugerTransition->AugerTransit    
364         G4int augerIndex = 0;                     
365         //      G4int partSum2 = 0;               
366                                                   
367                                                   
368   if (augerIndex < numberOfPossibleAuger) {       
369                                                   
370     do                                            
371       {                                           
372         G4double thisProb = anAugerTransition-    
373                     transitionLoopShellId);       
374         partSum += thisProb;                      
375         augerIndex++;                             
376                                                   
377       } while (augerIndex < numberOfPossibleAu    
378     }                                             
379         transitionLoopShellIndex++;               
380       }                                           
381                                                   
382                                                   
383                                                   
384       // Now we have the entire probability of    
385       // located in shellNum (index of shellId    
386                                                   
387       // AM *********************** F I X E D     
388       // Here we duplicate the previous loop,     
389       // to be under the random number shoot b    
390       // previuos loop, while integrating the     
391       // 5 minutes from now: a line:              
392       // G4int numberOfPossibleAuger = (anAuge    
393       // AugerTransitionProbabilities(transiti    
394       // to be inserted.                          
395       // AM *********************** F I X E D     
396                                                   
397       // Remains to get the same result with a    
398                                                   
399       // AM *********************** F I X E D     
400       // Another Bug: in EADL Auger Transition    
401       // a vacancy in one shell, but not all o    
402       // doesn't occur in the main one a local    
403       // generating the last transition presen    
404       // AM *********************** F I X E D     
405                                                   
406                                                   
407       G4double totalVacancyAugerProbability =     
408                                                   
409                                                   
410       //And now we start to select the right a    
411       G4int transitionRandomShellIndex = 0;       
412       G4int transitionRandomShellId = 1;          
413       G4int augerIndex = 0;                       
414       partSum = 0;                                
415       G4double partialProb = G4UniformRand();     
416       // G4int augerOriginatingShellId = 0;       
417                                                   
418       G4int numberOfPossibleAuger =               
419     (anAugerTransition->AugerTransitionProbabi    
420       G4bool foundFlag = false;                   
421                                                   
422       while (transitionRandomShellIndex < tran    
423                                                   
424         std::vector<G4int>::const_iterator pos    
425                anAugerTransition->TransitionOr    
426                                                   
427         transitionRandomShellId = *(pos+transi    
428                                                   
429   augerIndex = 0;                                 
430   numberOfPossibleAuger = (anAugerTransition->    
431          AugerTransitionProbabilities(transiti    
432                                                   
433         while (augerIndex < numberOfPossibleAu    
434     G4double thisProb =anAugerTransition->Auge    
435                      transitionRandomShellId);    
436                                                   
437           partSum += thisProb;                    
438                                                   
439           if (partSum >= (partialProb*totalVac    
440       foundFlag = true;                           
441       break;                                      
442     }                                             
443           augerIndex++;                           
444         }                                         
445         if (partSum >= (partialProb*totalVacan    
446         transitionRandomShellIndex++;             
447       }                                           
448                                                   
449       // Now we have the index of the shell fr    
450       // and the id of the shell, from which t    
451       // If no Transition has been found, 0 is    
452                                                   
453       if (!foundFlag) {return 0;}                 
454                                                   
455       // Isotropic angular distribution for th    
456       G4double newcosTh = 1.-2.*G4UniformRand(    
457       G4double  newsinTh = std::sqrt(1.-newcos    
458       G4double newPhi = twopi*G4UniformRand();    
459                                                   
460       G4double xDir =  newsinTh*std::sin(newPh    
461       G4double yDir = newsinTh*std::cos(newPhi    
462       G4double zDir = newcosTh;                   
463                                                   
464       G4ThreeVector newElectronDirection(xDir,    
465                                                   
466       // energy of the auger electron emitted     
467                                                   
468                                                   
469       G4double transitionEnergy = anAugerTrans    
470       /*                                          
471   G4cout << "AUger TransitionId " << anAugerTr    
472   G4cout << "augerIndex: " << augerIndex << G4    
473   G4cout << "transitionShellId: " << transitio    
474       */                                          
475                                                   
476       // This is the shell where the new vacan    
477       // shell where the electron came from       
478       newShellId = transitionRandomShellId;       
479                                                   
480                                                   
481       G4DynamicParticle* newPart = new G4Dynam    
482                newElectronDirection,              
483                transitionEnergy);                 
484       return newPart;                             
485                                                   
486     }                                             
487   else                                            
488     {                                             
489       //G4Exception("G4RDAtomicDeexcitation: n    
490       return 0;                                   
491     }                                             
492                                                   
493 }                                                 
494                                                   
495 void G4RDAtomicDeexcitation::SetCutForSecondar    
496 {                                                 
497   minGammaEnergy = cut;                           
498 }                                                 
499                                                   
500 void G4RDAtomicDeexcitation::SetCutForAugerEle    
501 {                                                 
502   minElectronEnergy = cut;                        
503 }                                                 
504                                                   
505 void G4RDAtomicDeexcitation::ActivateAugerElec    
506 {                                                 
507   fAuger = val;                                   
508 }                                                 
509                                                   
510                                                   
511                                                   
512                                                   
513                                                   
514                                                   
515                                                   
516