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Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // $Id: G4IonParametrisedLossModel.hh,v 1.8 2010-11-04 12:21:47 vnivanch Exp $ // GEANT4 tag $Name: not supported by cvs2svn $ // // =========================================================================== // GEANT4 class header file // // Class: G4IonParametrisedLossModel // // Base class: G4VEmModel (utils) // // Author: Anton Lechner (Anton.Lechner@cern.ch) // // First implementation: 10. 11. 2008 // // Modifications: 03. 02. 2009 - Bug fix iterators (AL) // 11. 03. 2009 - Introduced new table handler(G4IonDEDXHandler) // and modified method to add/remove tables // (tables are now built in init. phase), // Minor bug fix in ComputeDEDXPerVolume (AL) // 12. 11. 2009 - Added function for switching off scaling // of heavy ions from ICRU 73 data // 20. 11. 2009 - Added set-method for energy loss limit (AL) // 24. 11. 2009 - Bug fix: Range calculation corrected if same // materials appears with different cuts in diff. // regions (added UpdateRangeCache function and // modified BuildRangeVector, ComputeLossForStep // functions accordingly, added new cache param., // changed typdef of IonMatCouple). // - Removed GetRange function (AL) // // Class description: // Model for computing the energy loss of ions by employing a // parameterisation of dE/dx tables (default ICRU 73 tables). For // ion-material combinations and/or projectile energies not covered // by this model, the G4BraggIonModel and G4BetheBloch models are // employed. // // Comments: // // =========================================================================== #ifndef G4IONPARAMETRISEDLOSSMODEL_HH #define G4IONPARAMETRISEDLOSSMODEL_HH #include "G4VEmModel.hh" #include "G4EmCorrections.hh" #include "G4IonDEDXHandler.hh" #include #include #include #include class G4BraggIonModel; class G4BetheBlochModel; class G4ParticleChangeForLoss; class G4VIonDEDXTable; class G4VIonDEDXScalingAlgorithm; class G4LPhysicsFreeVector; class G4MaterialCutsCouple; typedef std::list LossTableList; typedef std::pair IonMatCouple; class G4IonParametrisedLossModel : public G4VEmModel { public: G4IonParametrisedLossModel(const G4ParticleDefinition* particle = 0, const G4String& name = "ParamICRU73"); virtual ~G4IonParametrisedLossModel(); virtual void Initialise( const G4ParticleDefinition*, // Projectile const G4DataVector&); // Cut energies virtual G4double MinEnergyCut( const G4ParticleDefinition*, // Projectile const G4MaterialCutsCouple*); virtual G4double ComputeCrossSectionPerAtom( const G4ParticleDefinition*, // Projectile G4double, // Kinetic energy of projectile G4double, // Atomic number G4double, // Mass number G4double, // Energy cut for secondary prod. G4double); // Maximum energy of secondaries virtual G4double CrossSectionPerVolume( const G4Material*, // Target material const G4ParticleDefinition*, // Projectile G4double, // Kinetic energy G4double, // Energy cut for secondary prod. G4double); // Maximum energy of secondaries virtual G4double ComputeDEDXPerVolume( const G4Material*, // Target material const G4ParticleDefinition*, // Projectile G4double, // Kinetic energy of projectile G4double); // Energy cut for secondary prod. // Function, which computes the continuous energy loss (due to electronic // stopping) for a given pre-step energy and step length by using // range vs energy (and energy vs range) tables G4double ComputeLossForStep( const G4MaterialCutsCouple*, // Mat-cuts couple const G4ParticleDefinition*, // Projectile G4double, // Kinetic energy of projectile G4double); // Length of current step // Function, which computes the mean energy transfer rate to delta rays inline G4double DeltaRayMeanEnergyTransferRate( const G4Material*, // Target Material const G4ParticleDefinition*, // Projectile G4double, // Kinetic energy of projectile G4double); // Energy cut for secondary prod. virtual void SampleSecondaries(std::vector*, const G4MaterialCutsCouple*, const G4DynamicParticle*, G4double, // Energy cut for secondary prod. G4double); // Maximum energy of secondaries virtual G4double GetChargeSquareRatio( const G4ParticleDefinition*, // Projectile const G4Material*, // Target Material G4double); // Kinetic energy of projectile virtual G4double GetParticleCharge( const G4ParticleDefinition*, // Projectile const G4Material*, // Target Material G4double); // Kinetic energy of projectile virtual void CorrectionsAlongStep( const G4MaterialCutsCouple*,// Mat.-Cut couple const G4DynamicParticle*, // Dyn. particle G4double&, // Energy loss in current step G4double&, G4double); // Length of current step // Function which allows to add additional stopping power tables // in combination with a scaling algorithm, which may depend on dynamic // information like the current particle energy (the table and scaling // algorithm are used via a handler class, which performs e.g.caching or // which applies the scaling of energy and dE/dx values) G4bool AddDEDXTable(const G4String& name, G4VIonDEDXTable* table, G4VIonDEDXScalingAlgorithm* algorithm = 0); G4bool RemoveDEDXTable(const G4String& name); // Function which allows to switch off scaling of stopping powers of heavy // ions from existing ICRU 73 data void DeactivateICRU73Scaling(); // Function checking the applicability of physics tables to ion-material // combinations (Note: the energy range of tables is not checked) inline LossTableList::iterator IsApplicable( const G4ParticleDefinition*, // Projectile (ion) const G4Material*); // Target material // Function printing a dE/dx table for a given ion-material combination // and a specified energy grid void PrintDEDXTable( const G4ParticleDefinition*, // Projectile (ion) const G4Material*, // Absorber material G4double, // Minimum energy per nucleon G4double, // Maximum energy per nucleon G4int, // Number of bins G4bool); // Logarithmic scaling of energy // Function printing a dE/dx table for a given ion-material combination // and a specified energy grid void PrintDEDXTableHandlers( const G4ParticleDefinition*, // Projectile (ion) const G4Material*, // Absorber material G4double, // Minimum energy per nucleon G4double, // Maximum energy per nucleon G4int, // Number of bins G4bool); // Logarithmic scaling of energy // Function for setting energy loss limit for stopping power integration inline void SetEnergyLossLimit(G4double ionEnergyLossLimit); protected: virtual G4double MaxSecondaryEnergy(const G4ParticleDefinition*, G4double); // Kinetic energy of projectile private: // Function which updates parameters concerning the dE/dx calculation // (the parameters are only updated if the particle, the material or // the associated energy cut has changed) void UpdateDEDXCache( const G4ParticleDefinition*, // Projectile (ion) const G4Material*, // Target material G4double cutEnergy); // Energy cut // Function which updates parameters concerning the range calculation // (the parameters are only updated if the particle, the material or // the associated energy cut has changed) void UpdateRangeCache( const G4ParticleDefinition*, // Projectile (ion) const G4MaterialCutsCouple*); // Target material // Function, which updates parameters concering particle properties inline void UpdateCache( const G4ParticleDefinition*); // Projectile (ion) // Function, which builds range vs energy (and energy vs range) vectors // for a given particle, material and energy cut void BuildRangeVector( const G4ParticleDefinition*, // Projectile (ion) const G4MaterialCutsCouple*); // Material cuts couple // Assignment operator and copy constructor are hidden: G4IonParametrisedLossModel & operator=( const G4IonParametrisedLossModel &right); G4IonParametrisedLossModel(const G4IonParametrisedLossModel &); // ###################################################################### // # Models and dE/dx tables for computing the energy loss // # // ###################################################################### // G4BraggIonModel and G4BetheBlochModel are used for ion-target // combinations and/or projectile energies not covered by parametrisations // adopted by this model: G4BraggIonModel* braggIonModel; G4BetheBlochModel* betheBlochModel; // List of dE/dx tables plugged into the model LossTableList lossTableList; // ###################################################################### // # Maps of Range vs Energy and Energy vs Range vectors // # // ###################################################################### typedef std::map RangeEnergyTable; RangeEnergyTable r; typedef std::map EnergyRangeTable; EnergyRangeTable E; // ###################################################################### // # Energy grid definitions (e.g. used for computing range-energy // # tables) // ###################################################################### G4double lowerEnergyEdgeIntegr; G4double upperEnergyEdgeIntegr; size_t nmbBins; size_t nmbSubBins; // ###################################################################### // # Particle change for loss // # // ###################################################################### // Pointer to particle change object, which is used to set e.g. the // energy loss and secondary delta-electron // used indicating if model is initialized G4ParticleChangeForLoss* particleChangeLoss; // ###################################################################### // # Corrections and energy loss limit // # // ###################################################################### // Pointer to an G4EmCorrections object, which is used to compute the // effective ion charge, and other corrections (like high order corrections // to stopping powers) G4EmCorrections* corrections; // Corrections factor for effective charge, computed for each particle // step G4double corrFactor; // Parameter indicating the maximal fraction of kinetic energy, which // a particle may loose along a step, in order that the simple relation // (dE/dx)*l can still be applied to compute the energy loss (l = step // length) G4double energyLossLimit; // ###################################################################### // # Cut energies and properties of generic ion // # // ###################################################################### // Vector containing the current cut energies (the vector index matches // the material-cuts couple index): G4DataVector cutEnergies; // Pointer to generic ion and mass of generic ion G4ParticleDefinition* genericIon; G4double genericIonPDGMass; // ###################################################################### // # "Most-recently-used" cache parameters // # // ###################################################################### // Cached key (particle) and value information for a faster // access of particle-related information const G4ParticleDefinition* cacheParticle; // Key: Current projectile G4double cacheMass; // Projectile mass G4double cacheElecMassRatio; // Electron-mass ratio G4double cacheChargeSquare; // Charge squared // Cached parameters needed during range computations: const G4ParticleDefinition* rangeCacheParticle; // Key: 1) Current ion, const G4MaterialCutsCouple* rangeCacheMatCutsCouple; // 2) Mat-cuts-couple G4PhysicsVector* rangeCacheEnergyRange; // Energy vs range vector G4PhysicsVector* rangeCacheRangeEnergy; // Range vs energy vector // Cached parameters needed during dE/dx computations: const G4ParticleDefinition* dedxCacheParticle; // Key: 1) Current ion, const G4Material* dedxCacheMaterial; // 2) material and G4double dedxCacheEnergyCut; // 3) cut energy LossTableList::iterator dedxCacheIter; // Responsible dE/dx table G4double dedxCacheTransitionEnergy; // Transition energy between // parameterization and // Bethe-Bloch model G4double dedxCacheTransitionFactor; // Factor for smoothing the dE/dx // values in the transition region G4double dedxCacheGenIonMassRatio; // Ratio of generic ion mass // and current particle mass }; #include "G4IonParametrisedLossModel.icc" #endif