Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4EmDNABuilder Class Reference

#include <G4EmDNABuilder.hh>

Static Public Member Functions

static void ConstructDNAParticles ()
 
static void ConstructStandardEmPhysics (const G4double emin_electron, const G4double emin_proton, const G4double emin_alpha, const G4double emin_ion, const G4EmDNAMscModelType mscType, const G4bool fast)
 
static void ConstructDNAElectronPhysics (const G4double emaxDNA, const G4int opt, const G4bool fast, const G4bool stationary, const G4Region *reg=nullptr)
 
static void ConstructDNAProtonPhysics (const G4double e1DNA, const G4double emaxDNA, const G4int opt, const G4bool fast, const G4bool stationary, const G4Region *reg=nullptr)
 
static void ConstructDNAIonPhysics (const G4double emax, const G4bool stationary, const G4Region *reg=nullptr)
 
static void ConstructDNALightIonPhysics (G4ParticleDefinition *part, const G4int charge, const G4int opt, const G4double emax, const G4bool fast, const G4bool stationary, const G4Region *reg=nullptr)
 
static G4DNAElectronSolvationFindOrBuildElectronSolvation ()
 
static G4DNAElasticFindOrBuildElastic (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAExcitationFindOrBuildExcitation (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAVibExcitationFindOrBuildVibExcitation (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAIonisationFindOrBuildIonisation (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAAttachmentFindOrBuildAttachment (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAChargeDecreaseFindOrBuildChargeDecrease (G4ParticleDefinition *part, const G4String &name)
 
static G4DNAChargeIncreaseFindOrBuildChargeIncrease (G4ParticleDefinition *part, const G4String &name)
 
static G4LowECaptureFindOrBuildCapture (const G4double elim, G4ParticleDefinition *part)
 

Detailed Description

Definition at line 59 of file G4EmDNABuilder.hh.

Member Function Documentation

◆ ConstructDNAElectronPhysics()

void G4EmDNABuilder::ConstructDNAElectronPhysics ( const G4double emaxDNA,
const G4int opt,
const G4bool fast,
const G4bool stationary,
const G4Region * reg = nullptr )
static

Definition at line 302 of file G4EmDNABuilder.cc.

307{
309
310 // limit of the Emfietzoglou models
311 G4double emaxE = 0.0;
312 // limit of the elastic and solvation models
313 G4double emaxT = 7.4*CLHEP::eV;
314 // limit for CPA100 models
315 G4double emaxCPA100 = 250*CLHEP::keV;
316 if(4 == opt) {
317 emaxE = 10.*CLHEP::keV;
318 emaxT = 10.*CLHEP::eV;
319 } else if(5 < opt) {
320 emaxT = 11.*CLHEP::eV;
321 }
322
323 // *** Solvation ***
326 therm->SetHighEnergyLimit(emaxT);
327 pSolvation->AddEmModel(-1, therm, reg);
328
329 // *** Elastic scattering ***
330 auto pElasticProcess = FindOrBuildElastic(part, "e-_G4DNAElastic");
331 G4VEmModel* elast = nullptr;
332 G4VEmModel* elast2 = nullptr;
333 if(4 == opt) {
335 } else if(5 < opt) {
336 auto mod = new G4DNACPA100ElasticModel();
337 mod->SelectStationary(stationary);
338 elast = mod;
339 elast2 = new G4DNAChampionElasticModel();
340 } else {
341 elast = new G4DNAChampionElasticModel();
342 }
343 elast->SetHighEnergyLimit(lowEnergyMSC);
344 pElasticProcess->AddEmModel(-2, elast, reg);
345
346 if(nullptr != elast2) {
347 elast->SetHighEnergyLimit(emaxCPA100);
348 elast2->SetLowEnergyLimit(emaxCPA100);
349 elast2->SetHighEnergyLimit(lowEnergyMSC);
350 pElasticProcess->AddEmModel(-3, elast2, reg);
351 }
352
353 // *** Excitation ***
354 auto theDNAExc = FindOrBuildExcitation(part, "e-_G4DNAExcitation");
355 if(emaxE > 0.0) {
356 auto modE = new G4DNAEmfietzoglouExcitationModel();
357 theDNAExc->AddEmModel(-1, modE, reg);
358 modE->SelectStationary(stationary);
359 modE->SetHighEnergyLimit(emaxE);
360 }
361 G4VEmModel* modB = nullptr;
362 G4VEmModel* modB2 = nullptr;
363 if(6 == opt) {
364 auto mod = new G4DNACPA100ExcitationModel();
365 mod->SelectStationary(stationary);
366 modB = mod;
367 auto mod1 = new G4DNABornExcitationModel();
368 mod1->SelectStationary(stationary);
369 modB2 = mod1;
370 } else {
371 auto mod = new G4DNABornExcitationModel();
372 mod->SelectStationary(stationary);
373 modB = mod;
374 }
375 modB->SetLowEnergyLimit(emaxE);
376 modB->SetHighEnergyLimit(emaxDNA);
377 theDNAExc->AddEmModel(-2, modB, reg);
378 if(nullptr != modB2) {
379 modB->SetHighEnergyLimit(emaxCPA100);
380 modB2->SetLowEnergyLimit(emaxCPA100);
381 modB2->SetHighEnergyLimit(emaxDNA);
382 theDNAExc->AddEmModel(-3, modB2, reg);
383 }
384
385 // *** Ionisation ***
386 auto theDNAIoni = FindOrBuildIonisation(part, "e-_G4DNAIonisation");
387 if(emaxE > 0.0) {
388 auto modE = new G4DNAEmfietzoglouIonisationModel();
389 theDNAIoni->AddEmModel(-1, modE, reg);
390 modE->SelectFasterComputation(fast);
391 modE->SelectStationary(stationary);
392 modE->SetHighEnergyLimit(emaxE);
393 }
394 G4VEmModel* modI = nullptr;
395 G4VEmModel* modI2 = nullptr;
396 if(6 == opt) {
397 auto mod = new G4DNACPA100IonisationModel();
398 mod->SelectStationary(stationary);
399 mod->SelectFasterComputation(fast);
400 modI = mod;
401 auto mod1 = new G4DNABornIonisationModel();
402 mod1->SelectStationary(stationary);
403 modI2 = mod1;
404 } else {
405 auto mod = new G4DNABornIonisationModel1();
406 mod->SelectStationary(stationary);
407 mod->SelectFasterComputation(fast);
408 modI = mod;
409 }
410 modI->SetLowEnergyLimit(emaxE);
411 modI->SetHighEnergyLimit(emaxDNA);
412 theDNAIoni->AddEmModel(-2, modI, reg);
413 if(nullptr != modI2) {
414 modI->SetHighEnergyLimit(emaxCPA100);
415 modI2->SetLowEnergyLimit(emaxCPA100);
416 modI2->SetHighEnergyLimit(emaxDNA);
417 theDNAIoni->AddEmModel(-3, modI2, reg);
418 }
419
420 if(4 != opt && 6 != opt) {
421 // *** Vibrational excitation ***
422 auto theDNAVibExc = FindOrBuildVibExcitation(part, "e-_G4DNAVibExcitation");
423 auto modS = new G4DNASancheExcitationModel();
424 theDNAVibExc->AddEmModel(-1, modS, reg);
425 modS->SelectStationary(stationary);
426
427 // *** Attachment ***
428 auto theDNAAttach = FindOrBuildAttachment(part, "e-_G4DNAAttachment");
429 auto modM = new G4DNAMeltonAttachmentModel();
430 theDNAAttach->AddEmModel(-1, modM, reg);
431 modM->SelectStationary(stationary);
432 }
433}
G4DNABornExcitationModel1 G4DNABornExcitationModel
#define G4DNABornIonisationModel
double G4double
Definition G4Types.hh:83
static G4VEmModel * GetMacroDefinedModel()
One step thermalization model can be chosen via macro using /process/dna/e-SolvationSubType Ritchie19...
static G4Electron * Electron()
Definition G4Electron.cc:91
static G4DNAExcitation * FindOrBuildExcitation(G4ParticleDefinition *part, const G4String &name)
static G4DNAElastic * FindOrBuildElastic(G4ParticleDefinition *part, const G4String &name)
static G4DNAElectronSolvation * FindOrBuildElectronSolvation()
static G4DNAVibExcitation * FindOrBuildVibExcitation(G4ParticleDefinition *part, const G4String &name)
static G4DNAAttachment * FindOrBuildAttachment(G4ParticleDefinition *part, const G4String &name)
static G4DNAIonisation * FindOrBuildIonisation(G4ParticleDefinition *part, const G4String &name)
void SetHighEnergyLimit(G4double)
void SetLowEnergyLimit(G4double)
void AddEmModel(G4int, G4VEmModel *, const G4Region *region=nullptr)

Referenced by G4EmDNAPhysics::ConstructProcess(), G4EmDNAPhysics_option2::ConstructProcess(), G4EmDNAPhysics_option4::ConstructProcess(), G4EmDNAPhysics_option6::ConstructProcess(), G4EmDNAPhysics_option8::ConstructProcess(), and G4EmDNAPhysicsActivator::ConstructProcess().

◆ ConstructDNAIonPhysics()

void G4EmDNABuilder::ConstructDNAIonPhysics ( const G4double emax,
const G4bool stationary,
const G4Region * reg = nullptr )
static

Definition at line 526 of file G4EmDNABuilder.cc.

529{
531
532 // *** Ionisation ***
533 auto theDNAIoni = FindOrBuildIonisation(part, "GenericIon_G4DNAIonisation");
534 auto mod = new G4DNARuddIonisationExtendedModel();
535 mod->SelectStationary(stationary);
536 mod->SetHighEnergyLimit(emaxIonDNA);
537 theDNAIoni->AddEmModel(-1, mod, reg);
538
539 FindOrBuildCapture(0.1*CLHEP::keV, part);
540}
static G4LowECapture * FindOrBuildCapture(const G4double elim, G4ParticleDefinition *part)
static G4GenericIon * GenericIon()

Referenced by G4EmDNAPhysics::ConstructProcess(), G4EmDNAPhysics_option2::ConstructProcess(), G4EmDNAPhysics_option4::ConstructProcess(), G4EmDNAPhysics_option6::ConstructProcess(), G4EmDNAPhysics_option8::ConstructProcess(), and G4EmDNAPhysicsActivator::ConstructProcess().

◆ ConstructDNALightIonPhysics()

void G4EmDNABuilder::ConstructDNALightIonPhysics ( G4ParticleDefinition * part,
const G4int charge,
const G4int opt,
const G4double emax,
const G4bool fast,
const G4bool stationary,
const G4Region * reg = nullptr )
static

Definition at line 545 of file G4EmDNABuilder.cc.

552{
554 const G4double emax = param->MaxKinEnergy();
555 const G4String& name = part->GetParticleName();
556
557 // *** Elastic ***
558 auto theDNAElastic = FindOrBuildElastic(part, name + "_G4DNAElastic");
559 auto modEI = new G4DNAIonElasticModel();
560 modEI->SelectStationary(stationary);
561 modEI->SetHighEnergyLimit(lowEnergyMSC);
562 theDNAElastic->AddEmModel(-1, modEI, reg);
563
564 // *** Excitation ***
565 auto theDNAExc = FindOrBuildExcitation(part, name + "_G4DNAExcitation");
566 auto modMGE = new G4DNAMillerGreenExcitationModel();
567 modMGE->SelectStationary(stationary);
568 modMGE->SetLowEnergyLimit(0.0);
569 modMGE->SetHighEnergyLimit(emaxIonDNA);
570 theDNAExc->AddEmModel(-1, modMGE, reg);
571
572 // *** Ionisation ***
573 auto theDNAIoni = FindOrBuildIonisation(part, name + "_G4DNAIonisation");
574 G4VEmModel* modRI = nullptr;
575 if(2 == opt) {
576 auto mod = new G4DNARuddIonisationExtendedModel();
577 mod->SelectStationary(stationary);
578 modRI = mod;
579 } else {
580 auto mod = new G4DNARuddIonisationModel();
581 mod->SelectStationary(stationary);
582 modRI = mod;
583 }
584 modRI->SetHighEnergyLimit(emaxIonDNA);
585 theDNAIoni->AddEmModel(-1, modRI, reg);
586
587 // *** Charge increase ***
588 if(2 > charge) {
589 auto theDNAChargeIncrease =
590 FindOrBuildChargeIncrease(part, name + "_G4DNAChargeIncrease");
591 auto modDCI = new G4DNADingfelderChargeIncreaseModel();
592 modDCI->SelectStationary(stationary);
593 modDCI->SetLowEnergyLimit(0.0);
594 modDCI->SetHighEnergyLimit(emax);
595 theDNAChargeIncrease->AddEmModel(-1, modDCI, reg);
596 }
597
598 // *** Charge decrease ***
599 if(0 < charge) {
600 auto theDNAChargeDecrease =
601 FindOrBuildChargeDecrease(part, name + "_G4DNAChargeDecrease");
602 auto modDCD = new G4DNADingfelderChargeDecreaseModel();
603 modDCD->SelectStationary(stationary);
604 modDCD->SetLowEnergyLimit(0.0);
605 modDCD->SetHighEnergyLimit(emax);
606 theDNAChargeDecrease->AddEmModel(-1, modDCD, reg);
607 }
608 FindOrBuildCapture(1*CLHEP::keV, part);
609}
static G4DNAChargeDecrease * FindOrBuildChargeDecrease(G4ParticleDefinition *part, const G4String &name)
static G4DNAChargeIncrease * FindOrBuildChargeIncrease(G4ParticleDefinition *part, const G4String &name)
static G4EmParameters * Instance()
G4double MaxKinEnergy() const
const G4String & GetParticleName() const
const char * name(G4int ptype)

Referenced by G4EmDNAPhysics::ConstructProcess(), G4EmDNAPhysics_option2::ConstructProcess(), G4EmDNAPhysics_option4::ConstructProcess(), G4EmDNAPhysics_option6::ConstructProcess(), G4EmDNAPhysics_option8::ConstructProcess(), and G4EmDNAPhysicsActivator::ConstructProcess().

◆ ConstructDNAParticles()

void G4EmDNABuilder::ConstructDNAParticles ( )
static

Definition at line 111 of file G4EmDNABuilder.cc.

112{
113 // standard particles
115
116 // DNA ions
117 G4DNAGenericIonsManager* genericIonsManager
119 genericIonsManager->GetIon("alpha+");
120 genericIonsManager->GetIon("helium");
121 genericIonsManager->GetIon("hydrogen");
122}
static G4DNAGenericIonsManager * Instance()
G4ParticleDefinition * GetIon(const G4String &name)
static void ConstructMinimalEmSet()

Referenced by G4EmDNAPhysics::ConstructParticle(), and G4EmDNAPhysicsActivator::ConstructParticle().

◆ ConstructDNAProtonPhysics()

void G4EmDNABuilder::ConstructDNAProtonPhysics ( const G4double e1DNA,
const G4double emaxDNA,
const G4int opt,
const G4bool fast,
const G4bool stationary,
const G4Region * reg = nullptr )
static

Definition at line 438 of file G4EmDNABuilder.cc.

444{
446 const G4double emax = param->MaxKinEnergy();
448
449 // *** Elastic scattering ***
450 auto pElasticProcess = FindOrBuildElastic(part, "proton_G4DNAElastic");
451 auto modE = new G4DNAIonElasticModel();
452 modE->SetHighEnergyLimit(lowEnergyMSC);
453 modE->SelectStationary(stationary);
454 pElasticProcess->AddEmModel(-1, modE, reg);
455
456 // *** Excitation ***
457 G4double e2DNA = std::min(e1DNA, lowEnergyRPWBA);
458 auto theDNAExc = FindOrBuildExcitation(part, "proton_G4DNAExcitation");
459 auto modMGE = new G4DNAMillerGreenExcitationModel();
460 modMGE->SetHighEnergyLimit(e2DNA);
461 modMGE->SelectStationary(stationary);
462 theDNAExc->AddEmModel(-1, modMGE, reg);
463
464 if(e2DNA < lowEnergyRPWBA) {
465 auto modB = new G4DNABornExcitationModel();
466 modB->SelectStationary(stationary);
467 modB->SetLowEnergyLimit(e2DNA);
468 modB->SetHighEnergyLimit(lowEnergyRPWBA);
469 theDNAExc->AddEmModel(-2, modB, reg);
470 }
471 if(lowEnergyRPWBA < emaxIonDNA) {
472 auto modC = new G4DNARPWBAExcitationModel();
473 modC->SelectStationary(stationary);
474 modC->SetLowEnergyLimit(lowEnergyRPWBA);
475 modC->SetHighEnergyLimit(emaxIonDNA);
476 theDNAExc->AddEmModel(-3, modC, reg);
477 }
478
479 // *** Ionisation ***
480 auto theDNAIoni = FindOrBuildIonisation(part, "proton_G4DNAIonisation");
481 G4VEmModel* modRI = nullptr;
482 if(2 == opt) {
483 auto mod = new G4DNARuddIonisationExtendedModel();
484 mod->SelectStationary(stationary);
485 modRI = mod;
486 } else {
487 auto mod = new G4DNARuddIonisationModel();
488 mod->SelectStationary(stationary);
489 modRI = mod;
490 }
491 modRI->SetHighEnergyLimit(e1DNA);
492 theDNAIoni->AddEmModel(-1, modRI, reg);
493
494 if(e2DNA < lowEnergyRPWBA) {
495 auto modI = new G4DNABornIonisationModel1();
496 modI->SelectFasterComputation(fast);
497 modI->SelectStationary(stationary);
498 modI->SetLowEnergyLimit(e2DNA);
499 modI->SetHighEnergyLimit(lowEnergyRPWBA);
500 theDNAIoni->AddEmModel(-2, modI, reg);
501 }
502 if(lowEnergyRPWBA < emaxIonDNA) {
503 auto modJ = new G4DNARPWBAIonisationModel();
504 modJ->SelectFasterComputation(fast);
505 modJ->SelectStationary(stationary);
506 modJ->SetLowEnergyLimit(lowEnergyRPWBA);
507 modJ->SetHighEnergyLimit(emaxIonDNA);
508 theDNAIoni->AddEmModel(-3, modJ, reg);
509 }
510
511 // *** Charge decrease ***
512 auto theDNAChargeDecreaseProcess =
513 FindOrBuildChargeDecrease(part, "proton_G4DNAChargeDecrease");
514 auto modDCD = new G4DNADingfelderChargeDecreaseModel();
515 modDCD->SelectStationary(stationary);
516 modDCD->SetLowEnergyLimit(0.0);
517 modDCD->SetHighEnergyLimit(emax);
518 theDNAChargeDecreaseProcess->AddEmModel(-1, modDCD, reg);
519
520 FindOrBuildCapture(0.1*CLHEP::keV, part);
521}
static G4Proton * Proton()
Definition G4Proton.cc:90

Referenced by G4EmDNAPhysics::ConstructProcess(), G4EmDNAPhysics_option2::ConstructProcess(), G4EmDNAPhysics_option4::ConstructProcess(), G4EmDNAPhysics_option6::ConstructProcess(), G4EmDNAPhysics_option8::ConstructProcess(), and G4EmDNAPhysicsActivator::ConstructProcess().

◆ ConstructStandardEmPhysics()

void G4EmDNABuilder::ConstructStandardEmPhysics ( const G4double emin_electron,
const G4double emin_proton,
const G4double emin_alpha,
const G4double emin_ion,
const G4EmDNAMscModelType mscType,
const G4bool fast )
static

Definition at line 127 of file G4EmDNABuilder.cc.

133{
136 const G4double emax = param->MaxKinEnergy();
138
139 // gamma
141
142 // photoelectric effect - Livermore model
143 auto thePEEffect = new G4PhotoElectricEffect();
144 thePEEffect->SetEmModel(new G4LivermorePhotoElectricModel());
145 ph->RegisterProcess(thePEEffect, gamma);
146
147 // Compton scattering - Klein-Nishina
148 auto theComptonScattering = new G4ComptonScattering();
149 theComptonScattering->SetEmModel(new G4KleinNishinaModel());
150 auto cModel = new G4LowEPComptonModel();
151 cModel->SetHighEnergyLimit(20*CLHEP::MeV);
152 theComptonScattering->AddEmModel(0, cModel);
153 ph->RegisterProcess(theComptonScattering, gamma);
154
155 // gamma conversion - 5D model
156 auto theGammaConversion = new G4GammaConversion();
157 ph->RegisterProcess(theGammaConversion, gamma);
158
159 // Rayleigh scattering - Livermore model
160 auto theRayleigh = new G4RayleighScattering();
161 ph->RegisterProcess(theRayleigh, gamma);
162
163 // electron
164 if(emin_elec < emax) {
166 auto msc_el = new G4eMultipleScattering();
167 G4VMscModel* msc_model_el;
168 if(mscType == dnaWVI) {
169 msc_model_el = new G4LowEWentzelVIModel();
170 } else if(mscType == dnaGS) {
171 msc_model_el = new G4GoudsmitSaundersonMscModel();
172 } else {
173 msc_model_el = new G4UrbanMscModel();
174 }
175 msc_model_el->SetActivationLowEnergyLimit(lowEnergyMSC);
176 msc_el->SetEmModel(msc_model_el);
177 ph->RegisterProcess(msc_el, elec);
178
179 auto ioni = new G4eIonisation();
180 auto mb_el = new G4MollerBhabhaModel();
181 mb_el->SetActivationLowEnergyLimit(emin_elec);
182 ioni->SetEmModel(mb_el);
183 ph->RegisterProcess(ioni, elec);
184
185 auto brem = new G4eBremsstrahlung();
186 auto sb_el = new G4SeltzerBergerModel();
187 sb_el->SetActivationLowEnergyLimit(emin_elec);
188 sb_el->SetHighEnergyLimit(emax);
189 sb_el->SetAngularDistribution(new G4Generator2BS());
190 brem->SetEmModel(sb_el);
191 ph->RegisterProcess(brem, elec);
192 }
193
194 // positron
196 auto msc_pos = new G4eMultipleScattering();
197 G4VMscModel* msc_model_pos;
198 if(mscType == dnaWVI) {
199 msc_model_pos = new G4LowEWentzelVIModel();
200 } else if(mscType == dnaGS) {
201 msc_model_pos = new G4GoudsmitSaundersonMscModel();
202 } else {
203 msc_model_pos = new G4UrbanMscModel();
204 }
205 msc_pos->SetEmModel(msc_model_pos);
206 ph->RegisterProcess(msc_pos, posi);
207 ph->RegisterProcess(new G4eIonisation(), posi);
208
209 auto brem = new G4eBremsstrahlung();
210 auto sb = new G4SeltzerBergerModel();
211 sb->SetHighEnergyLimit(emax);
212 sb->SetAngularDistribution(new G4Generator2BS());
213 brem->SetEmModel(sb);
214 ph->RegisterProcess(brem, posi);
215 ph->RegisterProcess(new G4eplusAnnihilation(), posi);
216
217 // proton
218 if(emin_proton < emax) {
220 StandardHadronPhysics(part, lowEnergyMSC, emin_proton, emax,
221 mscType, false);
222 }
223
224 // GenericIon
225 if(emin_ion < emax) {
227 StandardHadronPhysics(ion, lowEnergyMSC, emin_ion, emax,
228 dnaUrban, true);
229 }
230
231 // alpha
232 if(emin_alpha < emax) {
234 StandardHadronPhysics(part, lowEnergyMSC, emin_alpha, emax,
235 dnaUrban, true);
236
237 // alpha+
238 G4DNAGenericIonsManager* genericIonsManager
240 part = genericIonsManager->GetIon("alpha+");
241 StandardHadronPhysics(part, lowEnergyMSC, emin_alpha, emax,
242 dnaUrban, false);
243 }
244 // list of main standard particles
245 const std::vector<G4int> chargedParticles = {
246 13, -13, 211, -211, 321, -321, -2212,
247 1000010020, 1000010030, 1000020030
248 };
249 auto msc = new G4hMultipleScattering();
250 msc->SetEmModel(new G4WentzelVIModel());
251 G4EmBuilder::ConstructBasicEmPhysics(msc, chargedParticles);
252}
@ dnaWVI
@ dnaUrban
@ dnaGS
static G4Alpha * Alpha()
Definition G4Alpha.cc:83
static void PrepareEMPhysics()
static void ConstructBasicEmPhysics(G4hMultipleScattering *hmsc, const std::vector< G4int > &listHadrons)
static G4Gamma * Gamma()
Definition G4Gamma.cc:81
G4bool RegisterProcess(G4VProcess *process, G4ParticleDefinition *particle)
static G4PhysicsListHelper * GetPhysicsListHelper()
static G4Positron * Positron()
Definition G4Positron.cc:90
void SetActivationLowEnergyLimit(G4double)

Referenced by G4EmDNAPhysics::ConstructProcess(), G4EmDNAPhysics_option2::ConstructProcess(), G4EmDNAPhysics_option4::ConstructProcess(), G4EmDNAPhysics_option6::ConstructProcess(), and G4EmDNAPhysics_option8::ConstructProcess().

◆ FindOrBuildAttachment()

G4DNAAttachment * G4EmDNABuilder::FindOrBuildAttachment ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 698 of file G4EmDNABuilder.cc.

700{
702 G4DNAAttachment* ptr = dynamic_cast<G4DNAAttachment*>(p);
703 if(nullptr == ptr) {
704 ptr = new G4DNAAttachment(name);
706 ph->RegisterProcess(ptr, part);
707 ptr->SetEmModel(new G4DummyModel());
708 }
709 return ptr;
710}
static G4VProcess * FindProcess(const G4ParticleDefinition *, G4int subtype)
void SetEmModel(G4VEmModel *, G4int index=0)

Referenced by ConstructDNAElectronPhysics().

◆ FindOrBuildCapture()

G4LowECapture * G4EmDNABuilder::FindOrBuildCapture ( const G4double elim,
G4ParticleDefinition * part )
static

Definition at line 749 of file G4EmDNABuilder.cc.

750{
751 auto p = G4PhysListUtil::FindProcess(part, -1);
752 G4LowECapture* ptr = dynamic_cast<G4LowECapture*>(p);
753 if(nullptr == ptr) {
754 ptr = new G4LowECapture(elim);
755 auto mng = part->GetProcessManager();
756 mng->AddDiscreteProcess(ptr);
757 }
758 return ptr;
759}
G4ProcessManager * GetProcessManager() const
G4int AddDiscreteProcess(G4VProcess *aProcess, G4int ord=ordDefault)

Referenced by ConstructDNAIonPhysics(), ConstructDNALightIonPhysics(), and ConstructDNAProtonPhysics().

◆ FindOrBuildChargeDecrease()

G4DNAChargeDecrease * G4EmDNABuilder::FindOrBuildChargeDecrease ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 715 of file G4EmDNABuilder.cc.

717{
719 G4DNAChargeDecrease* ptr = dynamic_cast<G4DNAChargeDecrease*>(p);
720 if(nullptr == ptr) {
721 ptr = new G4DNAChargeDecrease(name);
723 ph->RegisterProcess(ptr, part);
724 ptr->SetEmModel(new G4DummyModel());
725 }
726 return ptr;
727}

Referenced by ConstructDNALightIonPhysics(), and ConstructDNAProtonPhysics().

◆ FindOrBuildChargeIncrease()

G4DNAChargeIncrease * G4EmDNABuilder::FindOrBuildChargeIncrease ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 732 of file G4EmDNABuilder.cc.

734{
736 G4DNAChargeIncrease* ptr = dynamic_cast<G4DNAChargeIncrease*>(p);
737 if(nullptr == ptr) {
738 ptr = new G4DNAChargeIncrease(name);
740 ph->RegisterProcess(ptr, part);
741 ptr->SetEmModel(new G4DummyModel());
742 }
743 return ptr;
744}

Referenced by ConstructDNALightIonPhysics().

◆ FindOrBuildElastic()

G4DNAElastic * G4EmDNABuilder::FindOrBuildElastic ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 630 of file G4EmDNABuilder.cc.

632{
634 G4DNAElastic* ptr = dynamic_cast<G4DNAElastic*>(p);
635 if(nullptr == ptr) {
636 ptr = new G4DNAElastic(name);
638 ph->RegisterProcess(ptr, part);
639 ptr->SetEmModel(new G4DummyModel());
640 }
641 return ptr;
642}

Referenced by ConstructDNAElectronPhysics(), ConstructDNALightIonPhysics(), and ConstructDNAProtonPhysics().

◆ FindOrBuildElectronSolvation()

G4DNAElectronSolvation * G4EmDNABuilder::FindOrBuildElectronSolvation ( )
static

Definition at line 613 of file G4EmDNABuilder.cc.

614{
615 auto elec = G4Electron::Electron();
617 G4DNAElectronSolvation* ptr = dynamic_cast<G4DNAElectronSolvation*>(p);
618 if(nullptr == ptr) {
619 ptr = new G4DNAElectronSolvation("e-_G4DNAElectronSolvation");
621 ph->RegisterProcess(ptr, elec);
622 ptr->SetEmModel(new G4DummyModel());
623 }
624 return ptr;
625}
@ fLowEnergyElectronSolvation

Referenced by ConstructDNAElectronPhysics().

◆ FindOrBuildExcitation()

G4DNAExcitation * G4EmDNABuilder::FindOrBuildExcitation ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 647 of file G4EmDNABuilder.cc.

649{
651 G4DNAExcitation* ptr = dynamic_cast<G4DNAExcitation*>(p);
652 if(nullptr == ptr) {
653 ptr = new G4DNAExcitation(name);
655 ph->RegisterProcess(ptr, part);
656 ptr->SetEmModel(new G4DummyModel());
657 }
658 return ptr;
659}

Referenced by ConstructDNAElectronPhysics(), ConstructDNALightIonPhysics(), and ConstructDNAProtonPhysics().

◆ FindOrBuildIonisation()

G4DNAIonisation * G4EmDNABuilder::FindOrBuildIonisation ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 681 of file G4EmDNABuilder.cc.

683{
685 G4DNAIonisation* ptr = dynamic_cast<G4DNAIonisation*>(p);
686 if(nullptr == ptr) {
687 ptr = new G4DNAIonisation(name);
689 ph->RegisterProcess(ptr, part);
690 ptr->SetEmModel(new G4DummyModel());
691 }
692 return ptr;
693}

Referenced by ConstructDNAElectronPhysics(), ConstructDNAIonPhysics(), ConstructDNALightIonPhysics(), and ConstructDNAProtonPhysics().

◆ FindOrBuildVibExcitation()

G4DNAVibExcitation * G4EmDNABuilder::FindOrBuildVibExcitation ( G4ParticleDefinition * part,
const G4String & name )
static

Definition at line 664 of file G4EmDNABuilder.cc.

666{
668 G4DNAVibExcitation* ptr = dynamic_cast<G4DNAVibExcitation*>(p);
669 if(nullptr == ptr) {
670 ptr = new G4DNAVibExcitation(name);
672 ph->RegisterProcess(ptr, part);
673 ptr->SetEmModel(new G4DummyModel());
674 }
675 return ptr;
676}
@ fLowEnergyVibrationalExcitation

Referenced by ConstructDNAElectronPhysics().


The documentation for this class was generated from the following files: