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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // 26 // >> 27 // $Id: G4FTFParticipants.cc,v 1.17 2010-09-20 15:50:46 vuzhinsk Exp $ >> 28 // GEANT4 tag $Name: not supported by cvs2svn $ 27 // 29 // 28 << 29 // ------------------------------------------- 30 // ------------------------------------------------------------ 30 // GEANT 4 class implementation file 31 // GEANT 4 class implementation file 31 // 32 // 32 // ---------------- G4FTFParticipants---- 33 // ---------------- G4FTFParticipants---------------- 33 // by Gunter Folger, June 1998. 34 // by Gunter Folger, June 1998. 34 // class finding colliding particles in 35 // class finding colliding particles in FTFPartonStringModel 35 // Changed in a part by V. Uzhinsky in oder t 36 // Changed in a part by V. Uzhinsky in oder to put in correcpondence 36 // with original FRITIOF mode. November 37 // with original FRITIOF mode. November - December 2006. 37 // Ajusted for (anti) nucleus - nucleus inter << 38 // (February 2011) << 39 // ------------------------------------------- 38 // ------------------------------------------------------------ 40 39 41 #include <utility> << 40 #include "G4FTFParameters.hh" // Uzhi 29.03.08 42 #include <vector> << 43 #include <algorithm> << 44 << 45 #include "G4FTFParticipants.hh" 41 #include "G4FTFParticipants.hh" 46 #include "G4ios.hh" << 47 #include "Randomize.hh" << 48 #include "G4SystemOfUnits.hh" << 49 #include "G4FTFParameters.hh" << 50 #include "G4DiffractiveSplitableHadron.hh" 42 #include "G4DiffractiveSplitableHadron.hh" 51 #include "G4VSplitableHadron.hh" 43 #include "G4VSplitableHadron.hh" 52 #include "G4PhysicalConstants.hh" << 44 #include "Randomize.hh" 53 << 45 #include <utility> // Uzhi 29.03.08 54 << 55 //============================================ << 56 << 57 //#define debugFTFparticipant << 58 << 59 << 60 //============================================ << 61 << 62 G4FTFParticipants::G4FTFParticipants() : Bimpa << 63 Bmin2 << 64 curre << 65 {} << 66 << 67 << 68 //============================================ << 69 << 70 G4FTFParticipants::~G4FTFParticipants() {} << 71 << 72 //============================================ << 73 << 74 void G4FTFParticipants::GetList( const G4React << 75 G4FTFParamete << 76 << 77 #ifdef debugFTFparticipant << 78 G4cout << "Participants::GetList" << G4endl << 79 << "thePrimary " << thePrimary.GetMom << 80 #endif << 81 << 82 G4double betta_z = thePrimary.GetMomentum(). << 83 if ( betta_z < 1.0e-10 ) betta_z = 1.0e-10; << 84 << 85 StartLoop(); // reset Loop over Interactions << 86 << 87 for ( unsigned int i = 0; i < theInteraction << 88 theInteractions.clear(); << 89 << 90 G4double deltaxy = 2.0 * fermi; // Extra nu << 91 << 92 if ( theProjectileNucleus == nullptr ) { // << 93 << 94 G4double impactX( 0.0 ), impactY( 0.0 ); << 95 G4double B( 0.0 ), B2( 0.0 ); << 96 << 97 G4VSplitableHadron* primarySplitable = new << 98 << 99 #ifdef debugFTFparticipant << 100 G4cout << "Hadron-nucleus or anti-baryon-n << 101 #endif << 102 << 103 G4double xyradius = theNucleus->GetOuterRa << 104 << 105 const G4int maxNumberOfLoops = 1000; << 106 G4int loopCounter = 0; << 107 do { << 108 << 109 std::pair< G4double, G4double > theImpac << 110 if ( SampleBinInterval() ) { << 111 B2 = GetBmin2() + G4UniformRand() * ( << 112 B = B2 > 0.0 ? std::sqrt( B2 ) : 0.0; << 113 G4double Phi = twopi * G4UniformRand() << 114 impactX = B * std::cos( Phi ); << 115 impactY = B * std::sin( Phi ); << 116 SetImpactParameter( B ); << 117 } else { << 118 theImpactParameter = theNucleus->Choos << 119 impactX = theImpactParameter.first; << 120 impactY = theImpactParameter.second; << 121 SetImpactParameter( std::sqrt( sqr(imp << 122 } << 123 << 124 #ifdef debugFTFparticipant << 125 G4cout << "New interaction list," << " b << 126 << std::sqrt( sqr(impactX ) + sqr << 127 #endif << 128 << 129 G4ThreeVector thePosition( impactX, impa << 130 primarySplitable->SetPosition( thePositi << 131 << 132 theNucleus->StartLoop(); << 133 G4Nucleon* nucleon; << 134 << 135 #ifdef debugFTFparticipant << 136 G4int TrN( 0 ); << 137 #endif << 138 << 139 while ( ( nucleon = theNucleus->GetNextN << 140 << 141 G4double impact2 = sqr( impactX - nucl << 142 sqr( impactY - nucl << 143 << 144 if ( theParameters->GetProbabilityOfIn << 145 G4UniformRand() ) { << 146 primarySplitable->SetStatus( 1 ); / << 147 G4VSplitableHadron* targetSplitable << 148 if ( ! nucleon->AreYouHit() ) { << 149 targetSplitable = new G4Diffractiv << 150 nucleon->Hit( targetSplitable ); << 151 targetSplitable->SetStatus( 1 ); / << 152 << 153 #ifdef debugFTFparticipant << 154 G4cout << "Participated nucleons # << 155 << primarySplitable << " " << 156 #endif << 157 << 158 } << 159 G4InteractionContent* aInteraction = << 160 G4Nucleon* PrNucleon = 0; << 161 aInteraction->SetProjectileNucleon( << 162 aInteraction->SetTarget( targetSplit << 163 aInteraction->SetTargetNucleon( nucl << 164 aInteraction->SetStatus( 1 ); << 165 aInteraction->SetInteractionTime( ( << 166 << 167 theInteractions.push_back( aInteract << 168 } << 169 << 170 #ifdef debugFTFparticipant << 171 TrN++; << 172 #endif << 173 << 174 } << 175 << 176 } while ( ( theInteractions.size() == 0 ) << 177 ++loopCounter < maxNumberOfLoops << 178 if ( loopCounter >= maxNumberOfLoops ) { << 179 #ifdef debugFTFparticipant << 180 G4cout << "BAD situation: forced exit fr << 181 #endif << 182 return; << 183 } << 184 46 185 #ifdef debugFTFparticipant << 47 // Class G4FTFParticipants 186 G4cout << "Number of Hit nucleons " << the << 187 << "\t By[fm] " << impactY/fermi << << 188 << std::sqrt( sqr( impactX ) + sqr( << 189 #endif << 190 << 191 //SortInteractionsIncT(); // Not need beca << 192 ShiftInteractionTime(); // To put correct << 193 return; << 194 << 195 } // end of if ( theProjectileNucleus == 0 << 196 << 197 // Projectile and target are nuclei << 198 << 199 #ifdef debugFTFparticipant << 200 G4cout << "Projectile and target are nuclei" << 201 #endif << 202 << 203 //G4cout<<theProjectileNucleus->GetOuterRadi << 204 << 205 // Range of impact parameter sampling << 206 G4double xyradius = theProjectileNucleus->Ge << 207 << 208 G4double impactX( 0.0 ), impactY( 0.0 ); << 209 G4double B( 0.0 ), B2( 0.0 ); << 210 << 211 const G4int maxNumberOfLoops = 1000; << 212 G4int loopCounter = 0; << 213 do { << 214 << 215 std::pair< G4double, G4double > theImpactP << 216 if ( SampleBinInterval() ) { << 217 B2 = GetBmin2() + G4UniformRand() * ( Ge << 218 B = B2 > 0.0 ? std::sqrt( B2 ) : 0.0; << 219 G4double Phi = twopi * G4UniformRand(); << 220 impactX = B * std::cos( Phi ); << 221 impactY = B * std::sin( Phi ); << 222 SetImpactParameter( B ); << 223 } else { << 224 theImpactParameter = theNucleus->ChooseI << 225 impactX = theImpactParameter.first; << 226 impactY = theImpactParameter.second; << 227 SetImpactParameter( std::sqrt( sqr(impac << 228 } << 229 48 230 #ifdef debugFTFparticipant << 49 G4FTFParticipants::G4FTFParticipants() 231 G4cout << "New interaction list, " << "b[f << 50 { 232 << std::sqrt( sqr( impactX ) + sqr( << 233 #endif << 234 << 235 G4ThreeVector theBeamPosition( impactX, im << 236 << 237 theProjectileNucleus->StartLoop(); << 238 G4Nucleon* ProjectileNucleon; << 239 << 240 #ifdef debugFTFparticipant << 241 G4int PrNuclN( 0 ); << 242 #endif << 243 << 244 while ( ( ProjectileNucleon = theProjectil << 245 << 246 G4VSplitableHadron* ProjectileSplitable << 247 theNucleus->StartLoop(); << 248 G4Nucleon* TargetNucleon = 0; << 249 << 250 #ifdef debugFTFparticipant << 251 G4int TrNuclN( 0 ); << 252 #endif << 253 << 254 while ( ( TargetNucleon = theNucleus->Ge << 255 << 256 G4double impact2 = sqr( impactX + Proj << 257 TargetNucleon- << 258 sqr( impactY + Proj << 259 TargetNucleon- << 260 G4VSplitableHadron* TargetSplitable = << 261 if ( theParameters->GetProbabilityOfIn << 262 G4UniformRand() ) { // An intera << 263 << 264 #ifdef debugFTFparticipant << 265 G4cout << G4endl << "An Interaction << 266 << " " << ProjectileNucleon-> << 267 << "Targ N mom " << TrNuclN < << 268 << "PrN TrN Z coords [fm]" << << 269 << " " << TargetNucleon->GetP << 270 << " " << ProjectileNucleon-> << 271 TargetNucleon->GetP << 272 #endif << 273 << 274 if ( ! ProjectileNucleon->AreYouHit( << 275 // Projectile nucleon was not invo << 276 ProjectileSplitable = new G4Diffra << 277 ProjectileNucleon->Hit( Projectile << 278 ProjectileSplitable->SetStatus( 1 << 279 } else { // Projectile nucleon was << 280 ProjectileSplitable = ProjectileNu << 281 } << 282 << 283 if ( ! TargetNucleon->AreYouHit() ) << 284 TargetSplitable = new G4Diffractiv << 285 TargetNucleon->Hit( TargetSplitabl << 286 TargetSplitable->SetStatus( 1 ); << 287 } else { // Target nucleon was invo << 288 TargetSplitable = TargetNucleon->G << 289 } << 290 << 291 G4InteractionContent* anInteraction << 292 anInteraction->SetTarget( TargetSpli << 293 anInteraction->SetProjectileNucleon( << 294 anInteraction->SetTargetNucleon( Tar << 295 anInteraction->SetInteractionTime( ( << 296 << 297 anInteraction->SetStatus( 1 ); << 298 << 299 #ifdef debugFTFparticipant << 300 G4cout << "Part anInteraction->GetIn << 301 << anInteraction->GetInteract << 302 << "Splitable Pr* Tr* " << Pr << 303 << TargetSplitable << G4endl; << 304 #endif << 305 << 306 theInteractions.push_back( anInterac << 307 << 308 } // End of an Interaction has happend << 309 << 310 #ifdef debugFTFparticipant << 311 TrNuclN++; << 312 #endif << 313 << 314 } // End of while ( ( TargetNucleon = t << 315 << 316 #ifdef debugFTFparticipant << 317 PrNuclN++; << 318 #endif << 319 << 320 } // End of while ( ( ProjectileNucleon = << 321 << 322 if ( theInteractions.size() != 0 ) theProj << 323 << 324 } while ( ( theInteractions.size() == 0 ) && << 325 ++loopCounter < maxNumberOfLoops ) << 326 if ( loopCounter >= maxNumberOfLoops ) { << 327 #ifdef debugFTFparticipant << 328 G4cout << "BAD situation: forced exit from << 329 #endif << 330 return; << 331 } << 332 << 333 SortInteractionsIncT(); << 334 ShiftInteractionTime(); << 335 << 336 #ifdef debugFTFparticipant << 337 G4cout << G4endl << "Number of primary colli << 338 << "\t Bx[fm] " << impactX/fermi << " << 339 << "\t B[fm] " << std::sqrt( sqr( imp << 340 << "FTF participant End. ############ << 341 #endif << 342 return; << 343 } 51 } 344 52 345 << 53 G4FTFParticipants::G4FTFParticipants(const G4FTFParticipants &): G4VParticipants() 346 //============================================ << 54 { 347 << 348 bool G4FTFPartHelperForSortInT( const G4Intera << 349 const G4Intera << 350 return Int1->GetInteractionTime() < Int2->Ge << 351 } 55 } 352 56 353 57 354 //============================================ << 58 G4FTFParticipants::~G4FTFParticipants() 355 << 59 { 356 void G4FTFParticipants::SortInteractionsIncT() << 357 if ( theInteractions.size() < 2 ) return; / << 358 std::sort( theInteractions.begin(), theInter << 359 } 60 } 360 61 361 62 362 //============================================ << 63 //const G4FTFParticipants & G4FTFParticipants::operator=(const G4FTFParticipants &right) >> 64 //{} 363 65 364 void G4FTFParticipants::ShiftInteractionTime() << 365 G4double InitialTime = theInteractions[0]->G << 366 for ( unsigned int i = 1; i < theInteraction << 367 G4double InterTime = theInteractions[i]->G << 368 theInteractions[i]->SetInteractionTime( In << 369 G4InteractionContent* aCollision = theInte << 370 G4VSplitableHadron* projectile = aCollisio << 371 G4VSplitableHadron* target = aCollision->G << 372 G4ThreeVector prPosition = projectile->Get << 373 prPosition.setZ( target->GetPosition().z() << 374 projectile->SetPosition( prPosition ); << 375 projectile->SetTimeOfCreation( InterTime ) << 376 target->SetTimeOfCreation( InterTime ); << 377 } << 378 return; << 379 } << 380 66 >> 67 //int G4FTFParticipants::operator==(const G4FTFParticipants &right) const >> 68 //{} 381 69 382 //============================================ << 70 //int G4FTFParticipants::operator!=(const G4FTFParticipants &right) const >> 71 //{} >> 72 >> 73 void G4FTFParticipants::GetList(const G4ReactionProduct &thePrimary, >> 74 G4FTFParameters *theParameters) >> 75 { >> 76 >> 77 StartLoop(); // reset Loop over Interactions >> 78 >> 79 for(unsigned int i=0; i<theInteractions.size(); i++) delete theInteractions[i]; >> 80 theInteractions.clear(); >> 81 >> 82 G4double deltaxy=2 * fermi; // Extra nuclear radius >> 83 >> 84 G4VSplitableHadron * primarySplitable=new G4DiffractiveSplitableHadron(thePrimary); >> 85 >> 86 G4double xyradius; >> 87 xyradius =theNucleus->GetOuterRadius() + deltaxy; // Impact parameter sampling >> 88 // radius >> 89 // G4bool nucleusNeedsShift = true; // Uzhi 20 July 2009 >> 90 >> 91 while ( theInteractions.size() == 0 ) >> 92 { >> 93 std::pair<G4double, G4double> theImpactParameter; >> 94 theImpactParameter = theNucleus->ChooseImpactXandY(xyradius); >> 95 G4double impactX = theImpactParameter.first; >> 96 G4double impactY = theImpactParameter.second; >> 97 >> 98 G4ThreeVector thePosition(impactX, impactY, -DBL_MAX); >> 99 primarySplitable->SetPosition(thePosition); >> 100 >> 101 theNucleus->StartLoop(); >> 102 G4Nucleon * nucleon; >> 103 >> 104 while ( (nucleon=theNucleus->GetNextNucleon()) ) >> 105 { >> 106 G4double impact2= sqr(impactX - nucleon->GetPosition().x()) + >> 107 sqr(impactY - nucleon->GetPosition().y()); >> 108 >> 109 if ( theParameters->GetProbabilityOfInteraction(impact2/fermi/fermi) >> 110 > G4UniformRand() ) >> 111 { >> 112 primarySplitable->SetStatus(1); // It takes part in the interaction >> 113 >> 114 G4VSplitableHadron * targetSplitable=0; >> 115 if ( ! nucleon->AreYouHit() ) >> 116 { >> 117 targetSplitable= new G4DiffractiveSplitableHadron(*nucleon); >> 118 nucleon->Hit(targetSplitable); >> 119 nucleon->SetBindingEnergy(3.*nucleon->GetBindingEnergy()); >> 120 targetSplitable->SetStatus(1); // It takes part in the interaction >> 121 } >> 122 G4InteractionContent * aInteraction = >> 123 new G4InteractionContent(primarySplitable); >> 124 aInteraction->SetTarget(targetSplitable); >> 125 aInteraction->SetTargetNucleon(nucleon); // Uzhi 16.07.09 >> 126 theInteractions.push_back(aInteraction); >> 127 } >> 128 } >> 129 >> 130 // G4cout << "Number of Hit nucleons " << theInteractions.size()<<G4endl; // entries() >> 131 // << "\t" << impactX/fermi << "\t"<<impactY/fermi >> 132 // << "\t" << std::sqrt(sqr(impactX)+sqr(impactY))/fermi <<G4endl; 383 133 384 void G4FTFParticipants::Clean() { << 385 for ( size_t i = 0; i < theInteractions.size << 386 if ( theInteractions[ i ] ) { << 387 delete theInteractions[ i ]; << 388 theInteractions[ i ] = 0; << 389 } 134 } 390 } << 135 391 theInteractions.clear(); << 392 currentInteraction = -1; << 393 } 136 } 394 137 >> 138 >> 139 // Implementation (private) methods 395 140