A process which handles screened Coulomb collisions between nuclei. More...
#include <G4ScreenedNuclearRecoil.hh>
Inheritance diagram for G4ScreenedNuclearRecoil: Collaboration diagram for G4ScreenedNuclearRecoil:Public Member Functions | |
| G4ScreenedNuclearRecoil (const G4String &processName="ScreenedElastic", const G4String &ScreeningKey="zbl", G4bool GenerateRecoils=1, G4double RecoilCutoff=100.0 *CLHEP::eV, G4double PhysicsCutoff=10.0 *CLHEP::eV) | |
| Construct the process and set some physics parameters for it. More... | |
| virtual | ~G4ScreenedNuclearRecoil () |
| destructor More... | |
| virtual G4double | GetMeanFreePath (const G4Track &, G4double, G4ForceCondition *) |
| used internally by Geant4 machinery More... | |
| virtual G4VParticleChange * | PostStepDoIt (const G4Track &aTrack, const G4Step &aStep) |
| used internally by Geant4 machinery More... | |
| virtual G4bool | IsApplicable (const G4ParticleDefinition &aParticleType) |
| test if a prticle of type aParticleType can use this process More... | |
| virtual void | BuildPhysicsTable (const G4ParticleDefinition &aParticleType) |
| Build physics tables in advance. Not Implemented. More... | |
| virtual void | DumpPhysicsTable (const G4ParticleDefinition &aParticleType) |
| Export physics tables for persistency. Not Implemented. More... | |
| virtual G4bool | CheckNuclearCollision (G4double A, G4double A1, G4double apsis) |
| deterine if the moving particle is within the strong force range of the selected nucleus More... | |
| virtual G4ScreenedCoulombCrossSection * | GetNewCrossSectionHandler (void) |
| G4double | GetNIEL () const |
| Get non-ionizing energy loss for last step. More... | |
| void | ResetTables () |
| clear precomputed screening tables More... | |
| void | SetMaxEnergyForScattering (G4double energy) |
| set the upper energy beyond which this process has no cross section More... | |
| std::string | GetScreeningKey () const |
| find out what screening funciton we are using More... | |
| void | AllowEnergyDeposition (G4bool flag) |
| enable or disable all energy deposition by this process More... | |
| G4bool | GetAllowEnergyDeposition () const |
| get flag indicating whether deposition is enabled More... | |
| void | EnableRecoils (G4bool flag) |
| enable or disable the generation of recoils. If recoils are disabled, the energy they would have received is just deposited. More... | |
| G4bool | GetEnableRecoils () const |
| find out if generation of recoils is enabled. More... | |
| void | SetMFPScaling (G4double scale) |
| set the mean free path scaling as specified More... | |
| G4double | GetMFPScaling () const |
| get the MFPScaling parameter More... | |
| void | AvoidNuclearReactions (G4bool flag) |
| enable or disable whether this process will skip collisions which are close enough they need hadronic phsyics. Default is true (skip close collisions). Disabling this results in excess nuclear stopping power. More... | |
| G4bool | GetAvoidNuclearReactions () const |
| get the flag indicating whether hadronic collisions are ignored. More... | |
| void | SetRecoilCutoff (G4double energy) |
| set the minimum energy (per nucleon) at which recoils can be generated, and the energy (per nucleon) below which all ions are stopped. More... | |
| G4double | GetRecoilCutoff () const |
| get the recoil cutoff More... | |
| void | SetPhysicsCutoff (G4double energy) |
| set the energy to which screening tables are computed. Typically, this is 10 eV or so, and not often changed. More... | |
| G4double | GetPhysicsCutoff () const |
| get the physics cutoff energy. More... | |
| void | SetNIELPartitionFunction (const G4VNIELPartition *part) |
| set the pointer to a class for paritioning energy into NIEL More... | |
| void | SetCrossSectionHardening (G4double fraction, G4double HardeningFactor) |
| set the cross section boost to provide faster computation of backscattering More... | |
| G4double | GetHardeningFraction () const |
| get the fraction of particles which will have boosted scattering More... | |
| G4double | GetHardeningFactor () const |
| get the boost factor in use. More... | |
| G4double | GetCurrentInteractionLength () const |
| the the interaciton length used in the last scattering. More... | |
| void | SetExternalCrossSectionHandler (G4ScreenedCoulombCrossSection *cs) |
| set a function to compute screening tables, if the user needs non-standard behavior. More... | |
| G4int | GetVerboseLevel () const |
| get the verbosity. More... | |
| std::map< G4int, G4ScreenedCoulombCrossSection * > & | GetCrossSectionHandlers () |
| void | ClearStages (void) |
| void | AddStage (G4ScreenedCollisionStage *stage) |
| G4CoulombKinematicsInfo & | GetKinematics () |
| void | SetValidCollision (G4bool flag) |
| G4bool | GetValidCollision () const |
| class G4ParticleChange & | GetParticleChange () |
| get the pointer to our ParticleChange object. for internal use, primarily. More... | |
| void | DepositEnergy (G4int z1, G4double a1, const G4Material *material, G4double energy) |
| take the given energy, and use the material information to partition it into NIEL and ionizing energy. More... | |
| Public Member Functions inherited from G4ScreenedCoulombCrossSectionInfo | |
| G4ScreenedCoulombCrossSectionInfo () | |
| ~G4ScreenedCoulombCrossSectionInfo () | |
| Public Member Functions inherited from G4VDiscreteProcess | |
| G4VDiscreteProcess (const G4String &, G4ProcessType aType=fNotDefined) | |
| G4VDiscreteProcess (G4VDiscreteProcess &) | |
| virtual | ~G4VDiscreteProcess () |
| virtual G4double | PostStepGetPhysicalInteractionLength (const G4Track &track, G4double previousStepSize, G4ForceCondition *condition) |
| virtual G4double | AlongStepGetPhysicalInteractionLength (const G4Track &, G4double, G4double, G4double &, G4GPILSelection *) |
| virtual G4double | AtRestGetPhysicalInteractionLength (const G4Track &, G4ForceCondition *) |
| virtual G4VParticleChange * | AtRestDoIt (const G4Track &, const G4Step &) |
| virtual G4VParticleChange * | AlongStepDoIt (const G4Track &, const G4Step &) |
| Public Member Functions inherited from G4VProcess | |
| G4VProcess (const G4String &aName="NoName", G4ProcessType aType=fNotDefined) | |
| G4VProcess (const G4VProcess &right) | |
| virtual | ~G4VProcess () |
| G4int | operator== (const G4VProcess &right) const |
| G4int | operator!= (const G4VProcess &right) const |
| G4double | GetCurrentInteractionLength () const |
| void | SetPILfactor (G4double value) |
| G4double | GetPILfactor () const |
| G4double | AlongStepGPIL (const G4Track &track, G4double previousStepSize, G4double currentMinimumStep, G4double &proposedSafety, G4GPILSelection *selection) |
| G4double | AtRestGPIL (const G4Track &track, G4ForceCondition *condition) |
| G4double | PostStepGPIL (const G4Track &track, G4double previousStepSize, G4ForceCondition *condition) |
| virtual void | PreparePhysicsTable (const G4ParticleDefinition &) |
| virtual G4bool | StorePhysicsTable (const G4ParticleDefinition *, const G4String &, G4bool) |
| virtual G4bool | RetrievePhysicsTable (const G4ParticleDefinition *, const G4String &, G4bool) |
| const G4String & | GetPhysicsTableFileName (const G4ParticleDefinition *, const G4String &directory, const G4String &tableName, G4bool ascii=false) |
| const G4String & | GetProcessName () const |
| G4ProcessType | GetProcessType () const |
| void | SetProcessType (G4ProcessType) |
| G4int | GetProcessSubType () const |
| void | SetProcessSubType (G4int) |
| virtual void | StartTracking (G4Track *) |
| virtual void | EndTracking () |
| virtual void | SetProcessManager (const G4ProcessManager *) |
| virtual const G4ProcessManager * | GetProcessManager () |
| virtual void | ResetNumberOfInteractionLengthLeft () |
| G4double | GetNumberOfInteractionLengthLeft () const |
| G4double | GetTotalNumberOfInteractionLengthTraversed () const |
| G4bool | isAtRestDoItIsEnabled () const |
| G4bool | isAlongStepDoItIsEnabled () const |
| G4bool | isPostStepDoItIsEnabled () const |
| virtual void | DumpInfo () const |
| void | SetVerboseLevel (G4int value) |
| G4int | GetVerboseLevel () const |
| virtual void | SetMasterProcess (G4VProcess *masterP) |
| const G4VProcess * | GetMasterProcess () const |
| virtual void | BuildWorkerPhysicsTable (const G4ParticleDefinition &part) |
| virtual void | PrepareWorkerPhysicsTable (const G4ParticleDefinition &) |
Friends | |
| class | G4ScreenedCollisionStage |
Additional Inherited Members | |
| Static Public Member Functions inherited from G4ScreenedCoulombCrossSectionInfo | |
| static const char * | CVSHeaderVers () |
| static const char * | CVSFileVers () |
| Static Public Member Functions inherited from G4VProcess | |
| static const G4String & | GetProcessTypeName (G4ProcessType) |
| Protected Member Functions inherited from G4VProcess | |
| void | SubtractNumberOfInteractionLengthLeft (G4double previousStepSize) |
| void | ClearNumberOfInteractionLengthLeft () |
Detailed Description
A process which handles screened Coulomb collisions between nuclei.
Definition at line 192 of file G4ScreenedNuclearRecoil.hh.
Constructor & Destructor Documentation
| G4ScreenedNuclearRecoil::G4ScreenedNuclearRecoil | ( | const G4String & | processName = "ScreenedElastic", |
| const G4String & | ScreeningKey = "zbl", |
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| G4bool | GenerateRecoils = 1, |
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| G4double | RecoilCutoff = 100.0*CLHEP::eV, |
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| G4double | PhysicsCutoff = 10.0*CLHEP::eV |
||
| ) |
Construct the process and set some physics parameters for it.
- Parameters
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processName the name to assign the process ScreeningKey the name of a screening function to use. The default functions are "zbl" (recommended for soft scattering), "lj" (recommended for backscattering) and "mol" (Moliere potential) GenerateRecoils if frue, ions struck by primary are converted into new moving particles. If false, energy is deposited, but no new moving ions are created. RecoilCutoff energy below which no new moving particles will be created, even if GenerateRecoils is true. Also, a moving primary particle will be stopped if its energy falls below this limit. PhysicsCutoff the energy transfer to which screening tables are calucalted. There is no really compelling reason to change it from the 10.0 eV default. However, see the paper on running this in thin targets for further discussion, and its interaction with SetMFPScaling()
Definition at line 322 of file G4ScreenedNuclearRecoil.cc.
References AddStage(), fCoulombScattering, highEnergyLimit, lowEnergyLimit, MeV, MFPScale, physicsCutoff, processMaxEnergy, registerDepositedEnergy, and G4VProcess::SetProcessSubType().
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destructor
Definition at line 393 of file G4ScreenedNuclearRecoil.cc.
References ResetTables().
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Definition at line 317 of file G4ScreenedNuclearRecoil.hh.
References collisionStages.
Referenced by G4ScreenedNuclearRecoil().
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enable or disable all energy deposition by this process
- Parameters
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flag if true, enable deposition of energy (the default). If false, disable deposition.
Definition at line 255 of file G4ScreenedNuclearRecoil.hh.
References registerDepositedEnergy.
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enable or disable whether this process will skip collisions which are close enough they need hadronic phsyics. Default is true (skip close collisions). Disabling this results in excess nuclear stopping power.
- Parameters
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flag true results in hard collisions being skipped. false allows hard collisions.
Definition at line 276 of file G4ScreenedNuclearRecoil.hh.
References avoidReactions.
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Build physics tables in advance. Not Implemented.
- Parameters
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aParticleType the type of particle to build tables for
Reimplemented from G4VProcess.
Definition at line 807 of file G4ScreenedNuclearRecoil.cc.
References G4cout, G4endl, G4ParticleDefinition::GetParticleName(), G4VProcess::GetProcessName(), G4VProcess::GetProcessSubType(), MeV, and processMaxEnergy.
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deterine if the moving particle is within the strong force range of the selected nucleus
- Parameters
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A the nucleon number of the beam A1 the nucleon number of the target apsis the distance of closest approach
Definition at line 400 of file G4ScreenedNuclearRecoil.cc.
References avoidReactions, and fermi.
Referenced by G4ScreenedCoulombClassicalKinematics::DoScreeningComputation().
Here is the caller graph for this function:| void G4ScreenedNuclearRecoil::ClearStages | ( | void | ) |
Definition at line 361 of file G4ScreenedNuclearRecoil.cc.
References collisionStages.
| void G4ScreenedNuclearRecoil::DepositEnergy | ( | G4int | z1, |
| G4double | a1, | ||
| const G4Material * | material, | ||
| G4double | energy | ||
| ) |
take the given energy, and use the material information to partition it into NIEL and ionizing energy.
Definition at line 380 of file G4ScreenedNuclearRecoil.cc.
References G4INCL::KinematicsUtils::energy(), IonizingLoss, NIEL, NIELPartitionFunction, and G4VNIELPartition::PartitionNIEL().
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep(), and PostStepDoIt().
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Export physics tables for persistency. Not Implemented.
- Parameters
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aParticleType the type of particle to build tables for
Definition at line 821 of file G4ScreenedNuclearRecoil.cc.
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enable or disable the generation of recoils. If recoils are disabled, the energy they would have received is just deposited.
- Parameters
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flag if true, create recoil ions in cases in which the energy is above the recoilCutoff. If false, just deposit the energy.
Definition at line 262 of file G4ScreenedNuclearRecoil.hh.
References generateRecoils.
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get flag indicating whether deposition is enabled
Definition at line 257 of file G4ScreenedNuclearRecoil.hh.
References registerDepositedEnergy.
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get the flag indicating whether hadronic collisions are ignored.
Definition at line 278 of file G4ScreenedNuclearRecoil.hh.
References avoidReactions.
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Definition at line 314 of file G4ScreenedNuclearRecoil.hh.
References crossSectionHandlers.
Referenced by PostStepDoIt().
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the the interaciton length used in the last scattering.
Definition at line 305 of file G4ScreenedNuclearRecoil.hh.
References G4VProcess::currentInteractionLength.
Referenced by PostStepDoIt().
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find out if generation of recoils is enabled.
Definition at line 264 of file G4ScreenedNuclearRecoil.hh.
References generateRecoils.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep().
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get the boost factor in use.
Definition at line 303 of file G4ScreenedNuclearRecoil.hh.
References hardeningFactor.
Referenced by PostStepDoIt().
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get the fraction of particles which will have boosted scattering
Definition at line 301 of file G4ScreenedNuclearRecoil.hh.
References hardeningFraction.
Referenced by PostStepDoIt().
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Definition at line 318 of file G4ScreenedNuclearRecoil.hh.
References kinematics.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep(), G4SingleScatter::DoCollisionStep(), and G4ScreenedCoulombClassicalKinematics::DoScreeningComputation().
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used internally by Geant4 machinery
Implements G4VDiscreteProcess.
Definition at line 419 of file G4ScreenedNuclearRecoil.cc.
References a1, G4ScreenedCoulombCrossSection::BuildMFPTables(), crossSectionHandlers, DBL_MAX, G4INCL::KinematicsUtils::energy(), eplus, Forced, G4DynamicParticle::GetDefinition(), G4Track::GetDynamicParticle(), G4Material::GetIndex(), G4DynamicParticle::GetKineticEnergy(), G4MaterialCutsCouple::GetMaterial(), G4Track::GetMaterialCutsCouple(), GetNewCrossSectionHandler(), G4ParticleDefinition::GetPDGCharge(), G4ParticleDefinition::GetPDGMass(), highEnergyLimit, G4ScreenedCoulombCrossSection::LoadData(), lowEnergyLimit, G4INCL::Math::max(), MFPScale, G4INCL::Math::min(), NotForced, physicsCutoff, processMaxEnergy, recoilCutoff, screeningKey, c2_function< float_type >::xmax(), and c2_function< float_type >::xmin().
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get the MFPScaling parameter
Definition at line 271 of file G4ScreenedNuclearRecoil.hh.
References MFPScale.
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Definition at line 410 of file G4ScreenedNuclearRecoil.cc.
References G4ScreenedCoulombCrossSection::create(), externalCrossSectionConstructor, G4ScreenedCoulombCrossSection::SetVerbosity(), and G4VProcess::verboseLevel.
Referenced by GetMeanFreePath().
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Get non-ionizing energy loss for last step.
Definition at line 239 of file G4ScreenedNuclearRecoil.hh.
References NIEL.
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get the pointer to our ParticleChange object. for internal use, primarily.
Definition at line 323 of file G4ScreenedNuclearRecoil.hh.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep(), G4SingleScatter::DoCollisionStep(), and PostStepDoIt().
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get the physics cutoff energy.
Definition at line 289 of file G4ScreenedNuclearRecoil.hh.
References physicsCutoff.
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get the recoil cutoff
Definition at line 284 of file G4ScreenedNuclearRecoil.hh.
References recoilCutoff.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep(), and PostStepDoIt().
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find out what screening funciton we are using
Definition at line 252 of file G4ScreenedNuclearRecoil.hh.
References screeningKey.
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Definition at line 320 of file G4ScreenedNuclearRecoil.hh.
References validCollision.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep(), and G4SingleScatter::DoCollisionStep().
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get the verbosity.
Definition at line 312 of file G4ScreenedNuclearRecoil.hh.
References G4VProcess::verboseLevel.
Referenced by PostStepDoIt().
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test if a prticle of type aParticleType can use this process
- Parameters
-
aParticleType the particle to test
Reimplemented from G4VProcess.
Definition at line 798 of file G4ScreenedNuclearRecoil.cc.
References G4ParticleDefinition::GetParticleType(), and G4Proton::Proton().
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used internally by Geant4 machinery
Reimplemented from G4VDiscreteProcess.
Definition at line 467 of file G4ScreenedNuclearRecoil.cc.
References a1, G4CoulombKinematicsInfo::a1, G4CoulombKinematicsInfo::a2, angstrom, collisionStages, G4CoulombKinematicsInfo::crossSection, DepositEnergy(), eplus, G4UniformRand, GetCrossSectionHandlers(), GetCurrentInteractionLength(), G4Track::GetDefinition(), G4Track::GetDynamicParticle(), GetHardeningFactor(), GetHardeningFraction(), G4DynamicParticle::GetKineticEnergy(), G4MaterialCutsCouple::GetMaterial(), G4Track::GetMaterialCutsCouple(), GetParticleChange(), G4ParticleDefinition::GetPDGCharge(), G4ParticleDefinition::GetPDGMass(), GetRecoilCutoff(), G4Material::GetTotNbOfAtomsPerVolume(), GetVerboseLevel(), G4CoulombKinematicsInfo::impactParameter, G4VParticleChange::Initialize(), IonizingLoss, kinematics, NIEL, G4INCL::Math::pi, G4VDiscreteProcess::PostStepDoIt(), G4VProcess::pParticleChange, G4ParticleChange::ProposeEnergy(), G4VParticleChange::ProposeLocalEnergyDeposit(), G4VParticleChange::ProposeNonIonizingEnergyDeposit(), G4CoulombKinematicsInfo::recoilIon, registerDepositedEnergy, G4ScreenedCoulombCrossSection::SelectRandomUnweightedTarget(), G4CoulombKinematicsInfo::targetMaterial, and validCollision.
Here is the call graph for this function:| void G4ScreenedNuclearRecoil::ResetTables | ( | ) |
clear precomputed screening tables
Definition at line 350 of file G4ScreenedNuclearRecoil.cc.
References crossSectionHandlers.
Referenced by SetPhysicsCutoff(), and ~G4ScreenedNuclearRecoil().
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set the cross section boost to provide faster computation of backscattering
- Parameters
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fraction the fraction of particles to have their cross section boosted. HardeningFactor the factor by which to boost the scattering cross section.
Definition at line 296 of file G4ScreenedNuclearRecoil.hh.
References hardeningFactor, and hardeningFraction.
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set a function to compute screening tables, if the user needs non-standard behavior.
- Parameters
-
cs a class which constructs the screening tables.
Definition at line 308 of file G4ScreenedNuclearRecoil.hh.
References externalCrossSectionConstructor.
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set the upper energy beyond which this process has no cross section
This funciton is used to coordinate this process with G4MSC. Typically, G4MSC should not be allowed to operate in a range which overlaps that of this process. The criterion which is most reasonable is that the transition should be somewhere in the modestly relativistic regime (500 MeV/u for example).
- Parameters
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energy energy per nucleon for the cutoff
Definition at line 250 of file G4ScreenedNuclearRecoil.hh.
References G4INCL::KinematicsUtils::energy(), and processMaxEnergy.
Referenced by PhysListEmStandardNR::ConstructProcess().
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set the mean free path scaling as specified
- Parameters
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scale the factor by which the default MFP will be scaled. Set to less than 1 for very thin films, typically, to sample multiple scattering, or to greater than 1 for quick simulaitons with a very long flight path.
Definition at line 269 of file G4ScreenedNuclearRecoil.hh.
References MFPScale.
| void G4ScreenedNuclearRecoil::SetNIELPartitionFunction | ( | const G4VNIELPartition * | part | ) |
set the pointer to a class for paritioning energy into NIEL
part the pointer to the class.
Definition at line 373 of file G4ScreenedNuclearRecoil.cc.
References NIELPartitionFunction.
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set the energy to which screening tables are computed. Typically, this is 10 eV or so, and not often changed.
- Parameters
-
energy the cutoff energy
Definition at line 287 of file G4ScreenedNuclearRecoil.hh.
References G4INCL::KinematicsUtils::energy(), physicsCutoff, and ResetTables().
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set the minimum energy (per nucleon) at which recoils can be generated, and the energy (per nucleon) below which all ions are stopped.
- Parameters
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energy energy per nucleon
Definition at line 282 of file G4ScreenedNuclearRecoil.hh.
References G4INCL::KinematicsUtils::energy(), and recoilCutoff.
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Definition at line 319 of file G4ScreenedNuclearRecoil.hh.
References validCollision.
Referenced by G4ScreenedCoulombClassicalKinematics::DoCollisionStep().
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Definition at line 196 of file G4ScreenedNuclearRecoil.hh.
Member Data Documentation
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Definition at line 335 of file G4ScreenedNuclearRecoil.hh.
Referenced by AvoidNuclearReactions(), CheckNuclearCollision(), and GetAvoidNuclearReactions().
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Definition at line 343 of file G4ScreenedNuclearRecoil.hh.
Referenced by AddStage(), ClearStages(), and PostStepDoIt().
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Definition at line 345 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetCrossSectionHandlers(), GetMeanFreePath(), and ResetTables().
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Definition at line 342 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetNewCrossSectionHandler(), and SetExternalCrossSectionHandler().
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Definition at line 335 of file G4ScreenedNuclearRecoil.hh.
Referenced by EnableRecoils(), and GetEnableRecoils().
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Definition at line 340 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetHardeningFactor(), and SetCrossSectionHardening().
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Definition at line 340 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetHardeningFraction(), and SetCrossSectionHardening().
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the energy per nucleon above which the MFP is constant
Definition at line 329 of file G4ScreenedNuclearRecoil.hh.
Referenced by G4ScreenedNuclearRecoil(), and GetMeanFreePath().
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Definition at line 338 of file G4ScreenedNuclearRecoil.hh.
Referenced by DepositEnergy(), and PostStepDoIt().
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Definition at line 348 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetKinematics(), and PostStepDoIt().
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the energy per nucleon below which the MFP is zero
Definition at line 331 of file G4ScreenedNuclearRecoil.hh.
Referenced by G4ScreenedNuclearRecoil(), and GetMeanFreePath().
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Definition at line 339 of file G4ScreenedNuclearRecoil.hh.
Referenced by G4ScreenedNuclearRecoil(), GetMeanFreePath(), GetMFPScaling(), and SetMFPScaling().
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Definition at line 338 of file G4ScreenedNuclearRecoil.hh.
Referenced by DepositEnergy(), GetNIEL(), and PostStepDoIt().
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Definition at line 349 of file G4ScreenedNuclearRecoil.hh.
Referenced by DepositEnergy(), and SetNIELPartitionFunction().
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Definition at line 336 of file G4ScreenedNuclearRecoil.hh.
Referenced by G4ScreenedNuclearRecoil(), GetMeanFreePath(), GetPhysicsCutoff(), and SetPhysicsCutoff().
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the energy per nucleon beyond which the cross section is zero, to cross over to G4MSC
Definition at line 333 of file G4ScreenedNuclearRecoil.hh.
Referenced by BuildPhysicsTable(), G4ScreenedNuclearRecoil(), GetMeanFreePath(), and SetMaxEnergyForScattering().
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Definition at line 336 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetMeanFreePath(), GetRecoilCutoff(), and SetRecoilCutoff().
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Definition at line 337 of file G4ScreenedNuclearRecoil.hh.
Referenced by AllowEnergyDeposition(), G4ScreenedNuclearRecoil(), GetAllowEnergyDeposition(), and PostStepDoIt().
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Definition at line 334 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetMeanFreePath(), and GetScreeningKey().
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Definition at line 347 of file G4ScreenedNuclearRecoil.hh.
Referenced by GetValidCollision(), PostStepDoIt(), and SetValidCollision().
The documentation for this class was generated from the following files:
- source/examples/extended/electromagnetic/TestEm7/include/G4ScreenedNuclearRecoil.hh
- source/examples/extended/electromagnetic/TestEm7/src/G4ScreenedNuclearRecoil.cc
