dd/d3b/_g4_ion_parametrised_loss_model_8icc_source.html

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// $Id: G4IonParametrisedLossModel.icc 66241 2012-12-13 18:34:42Z gunter $

//

// ===========================================================================

// GEANT4 class

//

// 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 initialisation phase),

//                               Minor bug fix in ComputeDEDXPerVolume (AL)

//                20. 11. 2009 - Added set-method for energy loss limit (AL)

//                04. 11. 2010 - Moved virtual methods to the source (VI)

//

// 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:

//

// ===========================================================================


inline G4double G4IonParametrisedLossModel::DeltaRayMeanEnergyTransferRate(

                                      const G4Material* material,

                                 const G4ParticleDefinition* particle,

                                 G4double kineticEnergy,

                                 G4double cutEnergy) {


  // ############## Mean energy transferred to delta-rays ###################

  // Computes the mean energy transfered to delta-rays per unit length,

  // considering only delta-rays with energies above the energy threshold

  // (energy cut)

  //

  // The mean energy transfer rate is derived by using the differential

  // cross section given in the references below.

  //

  // See Geant4 physics reference manual (version 9.1), section 9.1.3

  //

  // Ref.: W.M. Yao et al, Jour. of Phys. G 33 (2006) 1.

  //       B. Rossi, High energy particles, New York, NY: Prentice-Hall (1952).

  //

  // (Implementation adapted from G4BraggIonModel)


  //   *** Variables:

  //   kineticEnergy = kinetic energy of projectile

  //   totEnergy     = total energy of projectile, i.e. kinetic energy

  //                   plus rest energy (Mc^2)

  //   betaSquared   = beta of projectile squared, calculated as

  //                      beta^2 = 1 - 1 / (E/Mc^2)^2

  //                             = T * ( E + Mc^2 ) / E^2

  //                   where T = kineticEnergy, E = totEnergy

  //   cutEnergy     = energy threshold for secondary particle production

  //                   i.e. energy cut, below which energy transfered to

  //                   electrons is treated as continuous loss of projectile

  //   maxKinEnergy  = maximum energy transferable to secondary electrons

  //   meanRate      = mean kinetic energy of delta ray (per unit length)

  //                   (above cutEnergy)


  G4double meanRate = 0.0;


  G4double maxKinEnergy = MaxSecondaryEnergy(particle, kineticEnergy);


  if (cutEnergy < maxKinEnergy) {


    G4double totalEnergy  = kineticEnergy + cacheMass;

    G4double betaSquared  = kineticEnergy *

                  (totalEnergy + cacheMass) / (totalEnergy * totalEnergy);


    G4double cutMaxEnergyRatio = cutEnergy / maxKinEnergy;


    meanRate =

        (- std::log(cutMaxEnergyRatio) - (1.0 - cutMaxEnergyRatio) * betaSquared) *

        CLHEP::twopi_mc2_rcl2 *

        (material->GetTotNbOfElectPerVolume()) / betaSquared;


    meanRate *= GetChargeSquareRatio(particle, material, kineticEnergy);

  }


  return meanRate;

}


inline

void G4IonParametrisedLossModel::UpdateCache(

                             const G4ParticleDefinition* particle) {


  cacheParticle = particle;

  cacheMass = particle -> GetPDGMass();

  cacheElecMassRatio = CLHEP::electron_mass_c2 / cacheMass;

  G4double q = particle -> GetPDGCharge() / CLHEP::eplus;

  cacheChargeSquare = q * q;

}


inline

LossTableList::iterator G4IonParametrisedLossModel::IsApplicable(

                    const G4ParticleDefinition* particle,  // Projectile (ion)

                    const G4Material* material) {          // Target material


  LossTableList::iterator iter = lossTableList.end();

  LossTableList::iterator iterTables = lossTableList.begin();

  LossTableList::iterator iterTables_end = lossTableList.end();


  for(;iterTables != iterTables_end; iterTables++) {

      G4bool isApplicable = (*iterTables) ->

                       IsApplicable(particle, material);

      if(isApplicable) {

         iter = iterTables;

         break;

      }

  }


  return iter;

}


inline

void G4IonParametrisedLossModel::SetEnergyLossLimit(

                                            G4double ionEnergyLossLimit) {


  if(ionEnergyLossLimit > 0 && ionEnergyLossLimit <=1) {


     energyLossLimit = ionEnergyLossLimit;

  }

}