G4PolarizationTransition.hh

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// -------------------------------------------------------------------
//      GEANT4 Class file
//
//      File name:     G4PolarizationTransition
//
//      Author:        Jason Detwiler ([email protected])
// 
//      Creation date: Aug 2012
//
//      Description:   
//      Stores and manipulates the statistical tensor describing the nuclear
//      polarization (see Alder and Winther, "Electromagnetic Excitation" (1975),
//      Appendix F). Functions are implemented for generating angular correlations
//      in gamma decays, following Alder and Winther, Appendix G.
//      This code assumes no polarization will be detected and uses eqs (17-20).
//      Adding polarization would require using instead (13) and the more generic
//      form of the statstical tensor after decay described by equation (6)
//      Could be expanded to also generate e.g. gamma-beta and other
//      correlations as well.
//
// -------------------------------------------------------------------
 
#ifndef G4POLARIZATIONTRANSITION_HH
#define G4POLARIZATIONTRANSITION_HH
 
#include "globals.hh"
#include "G4LegendrePolynomial.hh"
#include "G4PolynomialPDF.hh"
#include "G4Pow.hh"
 
class G4NuclearPolarization;
 
class G4PolarizationTransition
{
  typedef std::vector< std::vector<G4complex> > POLAR;
 
  public:
    explicit G4PolarizationTransition();
    ~G4PolarizationTransition();
 
    void SampleGammaTransition(G4NuclearPolarization* np, 
                   G4int twoJ1, G4int twoJ2, 
                               G4int L0, G4int Lp, G4double mpRatio, 
                   G4double& cosTheta, G4double& phi);
 
    // generic static functions
    G4double FCoefficient(G4int K, G4int L, G4int Lprime, 
              G4int twoJ2, G4int twoJ1) const;
    G4double F3Coefficient(G4int K, G4int K2, G4int K1, G4int L, 
               G4int Lprime, G4int twoJ2, G4int twoJ1) const;
 
    // transition-specific functions
    G4double GammaTransFCoefficient(G4int K) const;
    G4double GammaTransF3Coefficient(G4int K, G4int K2, G4int K1) const;
 
    void DumpTransitionData(const POLAR& pol) const;
 
    inline void SetVerbose(G4int val) { fVerbose = val; };
 
  private:
 
    G4PolarizationTransition(const G4PolarizationTransition &right) = delete;
    const G4PolarizationTransition& operator=(const G4PolarizationTransition &right) = delete;
 
    // Gamma angle generation and decay: call these functions in this order!
    // All angles are in the same coordinate system: user may choose any axis
    G4double GenerateGammaCosTheta(const POLAR&);
    G4double GenerateGammaPhi(G4double& cosTheta, const POLAR&);
 
    inline G4double LnFactorial(int k) const { return G4Pow::GetInstance()->logfactorial(k); }
 
    G4int fVerbose;
    G4int fTwoJ1, fTwoJ2;
    G4int fLbar, fL;
    G4double fDelta;
    G4double kEps;
    G4PolynomialPDF kPolyPDF;
    G4LegendrePolynomial fgLegendrePolys;
};
 
 
#endif