Namespaces | Functions
INukeUtils2018.h File Reference
#include <TGenPhaseSpace.h>
#include "Physics/NuclearState/NuclearModelI.h"
#include "Physics/HadronTransport/INukeHadroFates2018.h"
#include "Physics/HadronTransport/INukeMode.h"
#include "Physics/HadronTransport/INukeNucleonCorr.h"

Go to the source code of this file.

Namespaces

 genie::intranuke
 INTRANUKE utilities.
 
 genie
 THE MAIN GENIE PROJECT NAMESPACE
 
 genie::utils
 Root of GENIE utility namespaces.
 
 genie::utils::intranuke2018
 

Functions

double genie::utils::intranuke2018::ProbSurvival (int pdgc, const TLorentzVector &x4, const TLorentzVector &p4, double A, double Z, double mfp_scale_factor=1.0, double nRpi=0.5, double nRnuc=1.0, double NR=3, double R0=1.4)
 Hadron survival probability. More...
 
double genie::utils::intranuke2018::MeanFreePath (int pdgc, const TLorentzVector &x4, const TLorentzVector &p4, double A, double Z, double nRpi=0.5, double nRnuc=1.0, const bool useOset=false, const bool altOset=false, const bool xsecNNCorr=false, string INukeMode="XX2018")
 Mean free path (pions, nucleons) More...
 
double genie::utils::intranuke2018::MeanFreePath_Delta (int pdgc, const TLorentzVector &x4, const TLorentzVector &p4, double A)
 Mean free path (Delta++ test) More...
 
double genie::utils::intranuke2018::Dist2Exit (const TLorentzVector &x4, const TLorentzVector &p4, double A, double NR=3, double R0=1.4)
 Distance to exit. More...
 
double genie::utils::intranuke2018::Dist2ExitMFP (int pdgc, const TLorentzVector &x4, const TLorentzVector &p4, double A, double Z, double NR=3, double R0=1.4)
 Distance to exit. More...
 
void genie::utils::intranuke2018::StepParticle (GHepParticle *p, double step, double nuclear_radius=-1.)
 Step particle. More...
 
bool genie::utils::intranuke2018::TwoBodyCollision (GHepRecord *ev, int pcode, int tcode, int scode, int s2code, double C3CM, GHepParticle *p, GHepParticle *t, int &RemnA, int &RemnZ, TLorentzVector &RemnP4, EINukeMode mode=kIMdHA)
 Intranuke utility functions. More...
 
bool genie::utils::intranuke2018::TwoBodyKinematics (double M3, double M4, TLorentzVector tP1L, TLorentzVector tP2L, TLorentzVector &tP3L, TLorentzVector &tP4L, double C3CM, TLorentzVector &RemnP4, double bindE=0)
 
bool genie::utils::intranuke2018::ThreeBodyKinematics (GHepRecord *ev, GHepParticle *p, int tcode, GHepParticle *s1, GHepParticle *s2, GHepParticle *s3, bool DoFermi=false, double FermiFac=0, double FermiMomentum=0, const NuclearModelI *Nuclmodel=(const NuclearModelI *) 0)
 
bool genie::utils::intranuke2018::PionProduction (GHepRecord *ev, GHepParticle *p, GHepParticle *s1, GHepParticle *s2, GHepParticle *s3, int &RemnA, int &RemnZ, TLorentzVector &RemnP4, bool DoFermi, double FermiFac, double FermiMomentum, const NuclearModelI *Nuclmodel)
 
double genie::utils::intranuke2018::CalculateEta (double Minc, double ke, double Mtarg, double Mtwopart, double Mpi)
 
void genie::utils::intranuke2018::Equilibrium (GHepRecord *ev, GHepParticle *p, int &RemnA, int &RemnZ, TLorentzVector &RemnP4, bool DoFermi, double FermiFac, const NuclearModelI *Nuclmodel, double NucRmvE, EINukeMode mode=kIMdHN)
 
void genie::utils::intranuke2018::PreEquilibrium (GHepRecord *ev, GHepParticle *p, int &RemnA, int &RemnZ, TLorentzVector &RemnP4, bool DoFermi, double FermiFac, const NuclearModelI *Nuclmodel, double NucRmvE, EINukeMode mode=kIMdHN)
 
bool genie::utils::intranuke2018::PhaseSpaceDecay (GHepRecord *ev, GHepParticle *p, const PDGCodeList &pdgv, TLorentzVector &RemnP4, double NucRmvE, EINukeMode mode=kIMdHA)
 general phase space decay method More...
 
double genie::utils::intranuke2018::sigmaTotalOset (const double &pionKineticEnergy, const double &density, const int &pionPDG, const double &protonFraction, const bool &isTableChosen=true)