63#ifndef G4PENELOPECROSSSECTION_HH
64#define G4PENELOPECROSSSECTION_HH 1
void AddShellCrossSectionPoint(size_t binNumber, size_t shellID, G4double energy, G4double xs)
size_t GetNumberOfShells() const
G4PhysicsTable * fShellNormalizedCrossSections
G4double GetTotalCrossSection(G4double energy) const
Returns total cross section at the given energy.
size_t fNumberOfEnergyPoints
G4double GetSoftStoppingPower(G4double energy) const
Returns the total stopping power due to soft collisions.
G4double GetShellCrossSection(size_t shellID, G4double energy) const
Returns the hard cross section for the given shell (per molecule)
G4PhysicsTable * fShellCrossSections
G4double GetHardCrossSection(G4double energy) const
Returns hard cross section at the given energy.
G4PhysicsTable * fSoftCrossSections
void NormalizeShellCrossSections()
G4PenelopeCrossSection(const G4PenelopeCrossSection &)=delete
G4PhysicsTable * fHardCrossSections
G4double GetNormalizedShellCrossSection(size_t shellID, G4double energy) const
Returns the hard cross section for the given shell (normalized to 1)
~G4PenelopeCrossSection()
void AddCrossSectionPoint(size_t binNumber, G4double energy, G4double XH0, G4double XH1, G4double XH2, G4double XS0, G4double XS1, G4double XS2)
G4PenelopeCrossSection & operator=(const G4PenelopeCrossSection &right)=delete
G4PenelopeCrossSection(size_t nOfEnergyPoints, size_t nOfShells=0)
G4double energy(const ThreeVector &p, const G4double m)