de/d00/_g4_evaporation_channel_8hh_source.html

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 // $Id: G4EvaporationChannel.hh 98739 2016-08-09 12:56:55Z gcosmo $

 //

 //

 //J.M. Quesada (August2008). Based on:

 //

 // Hadronic Process: Nuclear De-excitations

 // by V. Lara (Oct 1998)

 //

 // 17-11-2010 V.Ivanchenko in constructor replace G4VEmissionProbability by

 //            G4EvaporationProbability and do not new and delete probability

 //            object at each call; use G4Pow


 #ifndef G4EvaporationChannel_h

 #define G4EvaporationChannel_h 1


 #include "G4VEvaporationChannel.hh"

 #include "G4EvaporationProbability.hh"

 #include "G4VCoulombBarrier.hh"


 class G4PairingCorrection;


 class G4EvaporationChannel : public G4VEvaporationChannel

 {

 public:


   explicit G4EvaporationChannel(G4int A, G4int Z,

                                 const G4String & aName,

                                 G4EvaporationProbability*,

                                 G4VCoulombBarrier*);


   virtual ~G4EvaporationChannel();


   void Initialise();


   virtual G4double GetEmissionProbability(G4Fragment* fragment);


   virtual G4Fragment* EmittedFragment(G4Fragment* theNucleus);


 private:


   G4EvaporationChannel(const G4EvaporationChannel & right) = delete;

   const G4EvaporationChannel & operator=

   (const G4EvaporationChannel & right) = delete;

   G4bool operator==(const G4EvaporationChannel & right) const = delete;

   G4bool operator!=(const G4EvaporationChannel & right) const = delete;


 private:


   // This data member define the channel.

   // They are intializated at object creation (constructor) time.


   G4int theA;

   G4int theZ;


   G4double EvapMass;

   G4double CoulombBarrier;


   // For evaporation probability calcualation

   G4EvaporationProbability * theProbability;


   // For Coulomb Barrier calculation

   G4VCoulombBarrier * theCoulombBarrier;


   // For pairing correction calculation

   G4PairingCorrection* pairingCorrection;


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


   // These values depend on the nucleus that is being evaporated.

   // They are calculated through the Initialize method which

   // takes as parameters

   // the atomic number, charge and excitation energy of nucleus.


   G4int ResA;

   G4int ResZ;


   G4double Mass;


   // Emission Probability

   G4double EmissionProbability;


   // Kinetic Energy that can be carried by fragment

   G4double MinKinEnergy;

   G4double MaxKinEnergy;


 };


 #endif

G4EvaporationChannel::ResA
G4int ResA
Definition: G4EvaporationChannel.hh:99

G4EvaporationChannel::operator!=
G4bool operator!=(const G4EvaporationChannel &right) const =delete

right
Definition: F04UserTrackInformation.hh:37

G4EvaporationChannel::MaxKinEnergy
G4double MaxKinEnergy
Definition: G4EvaporationChannel.hh:109

G4EvaporationProbability
Definition: G4EvaporationProbability.hh:43

G4PairingCorrection
Definition: G4PairingCorrection.hh:42

G4EvaporationChannel::EmittedFragment
virtual G4Fragment * EmittedFragment(G4Fragment *theNucleus)
Definition: G4EvaporationChannel.cc:130

G4EvaporationChannel::GetEmissionProbability
virtual G4double GetEmissionProbability(G4Fragment *fragment)
Definition: G4EvaporationChannel.cc:78

G4EvaporationChannel::operator==
G4bool operator==(const G4EvaporationChannel &right) const =delete

G4EvaporationChannel
Definition: G4EvaporationChannel.hh:47

G4Fragment
Definition: G4Fragment.hh:66

G4EvaporationChannel::MinKinEnergy
G4double MinKinEnergy
Definition: G4EvaporationChannel.hh:108

G4EvaporationChannel::G4EvaporationChannel
G4EvaporationChannel(G4int A, G4int Z, const G4String &aName, G4EvaporationProbability *, G4VCoulombBarrier *)
Definition: G4EvaporationChannel.cc:53

G4int
int G4int
Definition: G4Types.hh:78

G4EvaporationChannel::Initialise
void Initialise()
Definition: G4EvaporationChannel.cc:72

G4EvaporationChannel::Mass
G4double Mass
Definition: G4EvaporationChannel.hh:102

A
double A(double temperature)
Definition: G4DNAElectronHoleRecombination.cc:60

G4EvaporationProbability.hh

G4EvaporationChannel::pairingCorrection
G4PairingCorrection * pairingCorrection
Definition: G4EvaporationChannel.hh:90

G4bool
bool G4bool
Definition: G4Types.hh:79

G4EvaporationChannel::theZ
G4int theZ
Definition: G4EvaporationChannel.hh:78

G4VCoulombBarrier
Definition: G4VCoulombBarrier.hh:37

G4EvaporationChannel::theCoulombBarrier
G4VCoulombBarrier * theCoulombBarrier
Definition: G4EvaporationChannel.hh:87

G4EvaporationChannel::~G4EvaporationChannel
virtual ~G4EvaporationChannel()
Definition: G4EvaporationChannel.cc:69

G4EvaporationChannel::theProbability
G4EvaporationProbability * theProbability
Definition: G4EvaporationChannel.hh:84

G4EvaporationChannel::EvapMass
G4double EvapMass
Definition: G4EvaporationChannel.hh:80

G4VEvaporationChannel.hh

G4EvaporationChannel::EmissionProbability
G4double EmissionProbability
Definition: G4EvaporationChannel.hh:105

G4VCoulombBarrier.hh

G4EvaporationChannel::theA
G4int theA
Definition: G4EvaporationChannel.hh:77

G4EvaporationChannel::ResZ
G4int ResZ
Definition: G4EvaporationChannel.hh:100

G4double
double G4double
Definition: G4Types.hh:76

G4String
Definition: G4String.hh:45

G4VEvaporationChannel
Definition: G4VEvaporationChannel.hh:50

G4EvaporationChannel::CoulombBarrier
G4double CoulombBarrier
Definition: G4EvaporationChannel.hh:81