g4doxy4.11/html/G4AdjointIons_8hh_source.html

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//

// ------------------------------------------------------------

//      GEANT 4 class header file

//

//      History:

//      1 July 2009 creation by L. Desorgher based on a modification of G4Ions

//

//-------------------------------------------------------------

//  Documentation:

//      Adjoint particles are used in Reverse/Adjoint Monte Carlo simulations. New adjoint

//      processes act on adjoint particles when they are  tracked backward in the geometry.

//      The use of adjoint particles instead of "normal" particles during a reverse simulation

//      is based on an idea of M. Asai.

//


#ifndef G4AdjointIons_h

#define G4AdjointIons_h 1


#include "globals.hh"

#include "G4ios.hh"

#include "G4ParticleDefinition.hh"


// ######################################################################

// ###                     ADJOINT Ions                               ###

// ######################################################################


class G4AdjointIons : public G4ParticleDefinition

{

 // Class Description

 //  This is the base class for all nuclei including pre-defined

 //  light nuclei such as deuteron, alpha, and proton (Hydrogen)

 //  All nuclei/ions created on the fly are objects of this class

 //  Atomic number and atomic mass are vaild only for particles derived

 //  from this class.  This class has Excitation Energy in addition to

 //  the normal particle properties.


 protected:

   G4AdjointIons(){};


 public: //With Description

   G4AdjointIons(

       const G4String&     aName,        G4double            mass,

       G4double            width,        G4double            charge,

       G4int               iSpin,        G4int               iParity,

       G4int               iConjugation, G4int               iIsospin,

       G4int               iIsospin3,    G4int               gParity,

       const G4String&     pType,        G4int               lepton,

       G4int               baryon,       G4int               encoding,

       G4bool              stable,       G4double            lifetime,

       G4DecayTable        *decaytable,  G4bool              shortlived,

       const G4String&     subType ="",

       G4int               anti_encoding =0,

       G4double            excitation = 0.0

   );


 public:

   virtual              ~G4AdjointIons();

   G4AdjointIons*               IonsDefinition();

   G4AdjointIons*               Ions();


 public:  //With Description

   // Get excitation energy of nucleus

   G4double GetExcitationEnergy() const ;


  private:

   G4double theExcitationEnergy;


};


inline

 G4AdjointIons* G4AdjointIons::Ions()

{

  return this;

}


inline

 G4double G4AdjointIons::GetExcitationEnergy() const

{

  return theExcitationEnergy;

}


#endif


G4ParticleDefinition.hh

G4double
double G4double
Definition: G4Types.hh:83

G4bool
bool G4bool
Definition: G4Types.hh:86

G4int
int G4int
Definition: G4Types.hh:85

G4ios.hh

G4AdjointIons
Definition: G4AdjointIons.hh:53

G4AdjointIons::GetExcitationEnergy
G4double GetExcitationEnergy() const
Definition: G4AdjointIons.hh:103

G4AdjointIons::G4AdjointIons
G4AdjointIons()
Definition: G4AdjointIons.hh:63

G4AdjointIons::IonsDefinition
G4AdjointIons * IonsDefinition()
Definition: G4AdjointIons.cc:72

G4AdjointIons::theExcitationEnergy
G4double theExcitationEnergy
Definition: G4AdjointIons.hh:92

G4AdjointIons::Ions
G4AdjointIons * Ions()
Definition: G4AdjointIons.hh:97

G4AdjointIons::~G4AdjointIons
virtual ~G4AdjointIons()
Definition: G4AdjointIons.cc:65

G4DecayTable
Definition: G4DecayTable.hh:46

G4ParticleDefinition
Definition: G4ParticleDefinition.hh:61

G4String
Definition: G4String.hh:62

globals.hh

G4InuclParticleNames::baryon
G4int baryon(G4int ityp)
Definition: G4InuclParticleNames.hh:103

encoding
Definition: xmltok.h:131