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Geant4/processes/electromagnetic/dna/models/src/G4DNACPA100ElasticModel.cc

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Diff markup

Differences between /processes/electromagnetic/dna/models/src/G4DNACPA100ElasticModel.cc (Version 11.3.0) and /processes/electromagnetic/dna/models/src/G4DNACPA100ElasticModel.cc (Version 9.3.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 // CPA100 elastic model class for electrons       
 27 //                                                
 28 // Based on the work of M. Terrissol and M. C.    
 29 //                                                
 30 // Users are requested to cite the following p    
 31 // - M. Terrissol, A. Baudre, Radiat. Prot. Do    
 32 // - M.C. Bordage, J. Bordes, S. Edel, M. Terr    
 33 //   M. Bardies, N. Lampe, S. Incerti, Phys. M    
 34 //                                                
 35 // Authors of this class:                         
 36 // M.C. Bordage, M. Terrissol, S. Edel, J. Bor    
 37 //                                                
 38 // 15.01.2014: creation                           
 39 //                                                
 40 // Based on the study by S. Zein et. al. Nucl.    
 41 // 1/2/2023 : Hoang added modification            
 42                                                   
 43 #include "G4DNACPA100ElasticModel.hh"             
 44                                                   
 45 #include "G4DNAMaterialManager.hh"                
 46 #include "G4DNAMolecularMaterial.hh"              
 47 #include "G4EnvironmentUtils.hh"                  
 48 #include "G4SystemOfUnits.hh"                     
 49 using namespace std;                              
 50 G4DNACPA100ElasticModel::G4DNACPA100ElasticMod    
 51   : G4VDNAModel(nam, "all")                       
 52 {                                                 
 53   fpGuanine = G4Material::GetMaterial("G4_GUAN    
 54   fpG4_WATER = G4Material::GetMaterial("G4_WAT    
 55   fpDeoxyribose = G4Material::GetMaterial("G4_    
 56   fpCytosine = G4Material::GetMaterial("G4_CYT    
 57   fpThymine = G4Material::GetMaterial("G4_THYM    
 58   fpAdenine = G4Material::GetMaterial("G4_ADEN    
 59   fpPhosphate = G4Material::GetMaterial("G4_PH    
 60   fpParticle = G4Electron::ElectronDefinition(    
 61 }                                                 
 62                                                   
 63 void G4DNACPA100ElasticModel::Initialise(const    
 64                                          const    
 65 {                                                 
 66   if (isInitialised) {                            
 67     return;                                       
 68   }                                               
 69   if (verboseLevel > 3) {                         
 70     G4cout << "Calling G4DNACPA100ExcitationMo    
 71   }                                               
 72                                                   
 73   if (!G4DNAMaterialManager::Instance()->IsLoc    
 74     if (p != fpParticle) {                        
 75       std::ostringstream oss;                     
 76       oss << " Model is not applied for this p    
 77       G4Exception("G4DNACPA100ElasticModel::G4    
 78                   oss.str().c_str());             
 79     }                                             
 80                                                   
 81     const char* path = G4FindDataDir("G4LEDATA    
 82                                                   
 83     if (path == nullptr) {                        
 84       G4Exception("G4DNACPA100ElasticModel::In    
 85                   "G4LEDATA environment variab    
 86       return;                                     
 87     }                                             
 88                                                   
 89     std::size_t index;                            
 90     if (fpG4_WATER != nullptr) {                  
 91       index = fpG4_WATER->GetIndex();             
 92       fLevels[index] = 1.214e-4;                  
 93       AddCrossSectionData(index, p, "dna/sigma    
 94                           "dna/sigmadiff_cumul    
 95       SetLowELimit(index, p, 11. * eV);           
 96       SetHighELimit(index, p, 255955. * eV);      
 97     }                                             
 98     if (fpGuanine != nullptr) {                   
 99       index = fpGuanine->GetIndex();              
100       fLevels[index] = 1.4504480e-05;             
101       AddCrossSectionData(index, p, "dna/sigma    
102                           "dna/sigmadiff_cumul    
103       SetLowELimit(index, p, 11 * eV);            
104       SetHighELimit(index, p, 1 * MeV);           
105     }                                             
106     if (fpDeoxyribose != nullptr) {               
107       index = fpDeoxyribose->GetIndex();          
108       fLevels[index] = 1.6343100e-05;             
109       AddCrossSectionData(index, p, "dna/sigma    
110                           "dna/sigmadiff_cumul    
111       SetLowELimit(index, p, 11 * eV);            
112       SetHighELimit(index, p, 1 * MeV);           
113     }                                             
114     if (fpCytosine != nullptr) {                  
115       index = fpCytosine->GetIndex();             
116       fLevels[index] = 1.9729660e-05;             
117       AddCrossSectionData(index, p, "dna/sigma    
118                           "dna/sigmadiff_cumul    
119       SetLowELimit(index, p, 11 * eV);            
120       SetHighELimit(index, p, 1 * MeV);           
121     }                                             
122     if (fpThymine != nullptr) {                   
123       index = fpThymine->GetIndex();              
124       fLevels[index] = 1.7381300e-05;             
125       AddCrossSectionData(index, p, "dna/sigma    
126                           "dna/sigmadiff_cumul    
127       SetLowELimit(index, p, 11 * eV);            
128       SetHighELimit(index, p, 1 * MeV);           
129     }                                             
130     if (fpAdenine != nullptr) {                   
131       index = fpAdenine->GetIndex();              
132       fLevels[index] = 1.6221800e-05;             
133       AddCrossSectionData(index, p, "dna/sigma    
134                           "dna/sigmadiff_cumul    
135       SetLowELimit(index, p, 11 * eV);            
136       SetHighELimit(index, p, 1 * MeV);           
137     }                                             
138     if (fpPhosphate != nullptr) {                 
139       index = fpPhosphate->GetIndex();            
140       fLevels[index] = 2.2369600e-05;             
141       AddCrossSectionData(index, p, "dna/sigma    
142                           "dna/sigmadiff_cumul    
143       SetLowELimit(index, p, 11 * eV);            
144       SetHighELimit(index, p, 1 * MeV);           
145     }                                             
146                                                   
147     // Load data                                  
148     LoadCrossSectionData(p);                      
149     G4DNAMaterialManager::Instance()->SetMaste    
150     fpModelData = this;                           
151   }                                               
152   else {                                          
153     auto dataModel = dynamic_cast<G4DNACPA100E    
154       G4DNAMaterialManager::Instance()->GetMod    
155     if (dataModel == nullptr) {                   
156       G4cout << "G4DNACPA100ElasticModel::Cros    
157       G4Exception("G4DNACPA100ElasticModel::Cr    
158                   "no modelData is registered"    
159     }                                             
160     else {                                        
161       fpModelData = dataModel;                    
162     }                                             
163   }                                               
164                                                   
165   fParticleChangeForGamma = GetParticleChangeF    
166   isInitialised = true;                           
167 }                                                 
168                                                   
169 //....oooOO0OOooo........oooOO0OOooo........oo    
170                                                   
171 G4double G4DNACPA100ElasticModel::CrossSection    
172                                                   
173                                                   
174 {                                                 
175   // Get the name of the current particle         
176   const G4String& particleName = p->GetParticl    
177   auto materialID = pMaterial->GetIndex();        
178                                                   
179   // set killBelowEnergy value for current mat    
180   fKillBelowEnergy = fpModelData->GetLowELimit    
181                                                   
182   G4double sigma = 0.;                            
183                                                   
184   if (ekin < fpModelData->GetHighELimit(materi    
185     if (ekin < fKillBelowEnergy) {                
186       return DBL_MAX;                             
187     }                                             
188                                                   
189     auto tableData = fpModelData->GetData();      
190                                                   
191     if ((*tableData)[materialID][p] == nullptr    
192       G4Exception("G4DNACPA100ElasticModel::Cr    
193                   "No model is registered");      
194     }                                             
195     sigma = (*tableData)[materialID][p]->FindV    
196   }                                               
197                                                   
198   if (verboseLevel > 2) {                         
199     auto MolDensity =                             
200       (*G4DNAMolecularMaterial::Instance()->Ge    
201     G4cout << "_______________________________    
202     G4cout << "°°° G4DNACPA100ElasticModel     
203     G4cout << "°°° Kinetic energy(eV)=" <<     
204     G4cout << "°°° lowLim (eV) = " << GetLo    
205            << " highLim (eV) : " << GetHighELi    
206     G4cout << "°°° Materials = " << (*G4Mat    
207            << G4endl;                             
208     G4cout << "°°° Cross section per molecu    
209     G4cout << "°°° Cross section per Phosph    
210            << G4endl;                             
211     G4cout << "°°° G4DNACPA100ElasticModel     
212   }                                               
213                                                   
214   auto MolDensity =                               
215     (*G4DNAMolecularMaterial::Instance()->GetN    
216   return sigma * MolDensity;                      
217 }                                                 
218                                                   
219 //....oooOO0OOooo........oooOO0OOooo........oo    
220                                                   
221 void G4DNACPA100ElasticModel::SampleSecondarie    
222                                                   
223                                                   
224                                                   
225 {                                                 
226   G4double electronEnergy0 = aDynamicElectron-    
227   auto materialID = couple->GetMaterial()->Get    
228   auto p = aDynamicElectron->GetParticleDefini    
229                                                   
230   if (p != fpParticle) {                          
231     G4Exception("G4DNACPA100ElasticModel::Samp    
232                 "This particle is not applied     
233   }                                               
234   if (electronEnergy0 < fKillBelowEnergy) {       
235     return;                                       
236   }                                               
237   G4double cosTheta = fpModelData->RandomizeCo    
238   G4double phi = 2. * CLHEP::pi * G4UniformRan    
239                                                   
240   const G4ThreeVector& zVers = aDynamicElectro    
241                                                   
242   G4double CT1, ST1, CF1, SF1, CT2, ST2, CF2,     
243   G4double sinTheta = std::sqrt(1 - cosTheta *    
244                                                   
245   CT1 = zVers.z();                                
246   ST1 = std::sqrt(1. - CT1 * CT1);                
247                                                   
248   if (ST1 != 0)                                   
249     CF1 = zVers.x() / ST1;                        
250   else                                            
251     CF1 = std::cos(2. * CLHEP::pi * G4UniformR    
252   if (ST1 != 0)                                   
253     SF1 = zVers.y() / ST1;                        
254   else                                            
255     SF1 = std::sqrt(1. - CF1 * CF1);              
256                                                   
257   G4double A3, A4, A5, A2, A1;                    
258                                                   
259   A3 = sinTheta * std::cos(phi);                  
260   A4 = A3 * CT1 + ST1 * cosTheta;                 
261   A5 = sinTheta * std::sin(phi);                  
262   A2 = A4 * SF1 + A5 * CF1;                       
263   A1 = A4 * CF1 - A5 * SF1;                       
264                                                   
265   CT2 = CT1 * cosTheta - ST1 * A3;                
266   ST2 = std::sqrt(1. - CT2 * CT2);                
267                                                   
268   if (ST2 == 0) ST2 = 1E-6;                       
269   CF2 = A1 / ST2;                                 
270   SF2 = A2 / ST2;                                 
271   G4ThreeVector zPrimeVers(ST2 * CF2, ST2 * SF    
272                                                   
273   fParticleChangeForGamma->ProposeMomentumDire    
274                                                   
275   auto EnergyDeposit = fpModelData->GetElastic    
276   fParticleChangeForGamma->ProposeLocalEnergyD    
277   if (statCode) {                                 
278     fParticleChangeForGamma->SetProposedKineti    
279   }                                               
280   else {                                          
281     auto newEnergy = electronEnergy0 - EnergyD    
282     fParticleChangeForGamma->SetProposedKineti    
283   }                                               
284 }                                                 
285                                                   
286 G4double G4DNACPA100ElasticModel::Theta(const     
287                                         G4doub    
288 {                                                 
289   G4double theta, valueT1, valueT2, valueE21,     
290   G4double xs11 = 0;                              
291   G4double xs12 = 0;                              
292   G4double xs21 = 0;                              
293   G4double xs22 = 0;                              
294   if (p == G4Electron::ElectronDefinition()) {    
295     if (k == tValuesVec[materialID][p].back())    
296       k = k * (1. - 1e-12);                       
297     }                                             
298     auto t2 =                                     
299       std::upper_bound(tValuesVec[materialID][    
300     auto t1 = t2 - 1;                             
301                                                   
302     auto e12 = std::upper_bound(eValuesVect[ma    
303                                 eValuesVect[ma    
304     auto e11 = e12 - 1;                           
305                                                   
306     auto e22 = std::upper_bound(eValuesVect[ma    
307                                 eValuesVect[ma    
308     auto e21 = e22 - 1;                           
309                                                   
310     valueT1 = *t1;                                
311     valueT2 = *t2;                                
312     valueE21 = *e21;                              
313     valueE22 = *e22;                              
314     valueE12 = *e12;                              
315     valueE11 = *e11;                              
316                                                   
317     xs11 = diffCrossSectionData[materialID][p]    
318     xs12 = diffCrossSectionData[materialID][p]    
319     xs21 = diffCrossSectionData[materialID][p]    
320     xs22 = diffCrossSectionData[materialID][p]    
321   }                                               
322                                                   
323   if (xs11 == 0 && xs12 == 0 && xs21 == 0 && x    
324     return (0.);                                  
325   }                                               
326                                                   
327   theta = QuadInterpolator(valueE11, valueE12,    
328                            valueT2, k, integrD    
329                                                   
330   return theta;                                   
331 }                                                 
332                                                   
333 //....oooOO0OOooo........oooOO0OOooo........oo    
334                                                   
335 G4double G4DNACPA100ElasticModel::LinLogInterp    
336                                                   
337 {                                                 
338   G4double d1 = std::log(xs1);                    
339   G4double d2 = std::log(xs2);                    
340   G4double value = std::exp(d1 + (d2 - d1) * (    
341   return value;                                   
342 }                                                 
343                                                   
344 //....oooOO0OOooo........oooOO0OOooo........oo    
345                                                   
346 G4double G4DNACPA100ElasticModel::LinLinInterp    
347                                                   
348 {                                                 
349   G4double d1 = xs1;                              
350   G4double d2 = xs2;                              
351   G4double value = (d1 + (d2 - d1) * (e - e1)     
352   return value;                                   
353 }                                                 
354                                                   
355 //....oooOO0OOooo........oooOO0OOooo........oo    
356                                                   
357 G4double G4DNACPA100ElasticModel::LogLogInterp    
358                                                   
359 {                                                 
360   G4double a = (std::log10(xs2) - std::log10(x    
361   G4double b = std::log10(xs2) - a * std::log1    
362   G4double sigma = a * std::log10(e) + b;         
363   G4double value = (std::pow(10., sigma));        
364   return value;                                   
365 }                                                 
366                                                   
367 //....oooOO0OOooo........oooOO0OOooo........oo    
368                                                   
369 G4double G4DNACPA100ElasticModel::QuadInterpol    
370                                                   
371                                                   
372                                                   
373 {                                                 
374   // Log-Log                                      
375   /*                                              
376     G4double interpolatedvalue1 = LogLogInterp    
377     G4double interpolatedvalue2 = LogLogInterp    
378     G4double value = LogLogInterpolate(t1, t2,    
379                                                   
380                                                   
381     // Lin-Log                                    
382     G4double interpolatedvalue1 = LinLogInterp    
383     G4double interpolatedvalue2 = LinLogInterp    
384     G4double value = LinLogInterpolate(t1, t2,    
385   */                                              
386                                                   
387   // Lin-Lin                                      
388   G4double interpolatedvalue1 = LinLinInterpol    
389   G4double interpolatedvalue2 = LinLinInterpol    
390   G4double value = LinLinInterpolate(t1, t2, t    
391                                                   
392   return value;                                   
393 }                                                 
394                                                   
395 //....oooOO0OOooo........oooOO0OOooo........oo    
396                                                   
397 G4double G4DNACPA100ElasticModel::RandomizeCos    
398 {                                                 
399   G4double integrdiff = 0;  // PROBABILITY bet    
400   G4double uniformRand = G4UniformRand();         
401   integrdiff = uniformRand;                       
402   G4double cosTheta = 0.;                         
403   cosTheta = 1 - Theta(G4Electron::ElectronDef    
404   // cosTheta = std::cos(theta * CLHEP::pi / 1    
405   return cosTheta;                                
406 }                                                 
407 //....oooOO0OOooo........oooOO0OOooo........oo    
408                                                   
409 void G4DNACPA100ElasticModel::ReadDiffCSFile(c    
410                                              c    
411                                              c    
412 {                                                 
413   const char* path = G4FindDataDir("G4LEDATA")    
414   if (path == nullptr) {                          
415     G4Exception("G4DNACPA100ElasticModel::Read    
416                 "G4LEDATA environment variable    
417     return;                                       
418   }                                               
419                                                   
420   std::ostringstream fullFileName;                
421   fullFileName << path << "/" << file << ".dat    
422                                                   
423   std::ifstream diffCrossSection(fullFileName.    
424   // error if file is not there                   
425   std::stringstream endPath;                      
426   if (!diffCrossSection) {                        
427     endPath << "Missing data file: " << file;     
428     G4Exception("G4DNACPA100ElasticModel::Init    
429                 endPath.str().c_str());           
430   }                                               
431                                                   
432   tValuesVec[materialName][particleName].push_    
433                                                   
434   G4String line;                                  
435   while (std::getline(diffCrossSection, line))    
436     //                                            
437     std::istringstream testIss(line);             
438     G4String test;                                
439     testIss >> test;                              
440     if (test == "#") {                            
441       continue;                                   
442     }                                             
443     // check if line is empty                     
444     if (line.empty()) {                           
445       continue;                                   
446     }                                             
447     std::istringstream iss(line);                 
448                                                   
449     G4double tDummy;                              
450     G4double eDummy;                              
451                                                   
452     iss >> tDummy >> eDummy;                      
453                                                   
454     if (tDummy != tValuesVec[materialName][par    
455       // Add the current T value                  
456       tValuesVec[materialName][particleName].p    
457       // Make it correspond to a default zero     
458       eValuesVect[materialName][particleName][    
459     }                                             
460     iss >> diffCrossSectionData[materialName][    
461                                                   
462     if (eDummy != eValuesVect[materialName][pa    
463       eValuesVect[materialName][particleName][    
464     }                                             
465   }                                               
466 }                                                 
467