Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4PolarizationTransition.hh
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1// ********************************************************************
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24//
25//
26// -------------------------------------------------------------------
27// GEANT4 Class file
28//
29// File name: G4PolarizationTransition
30//
31// Author: Jason Detwiler ([email protected])
32//
33// Creation date: Aug 2012
34//
35// Description:
36// Stores and manipulates the statistical tensor describing the nuclear
37// polarization (see Alder and Winther, "Electromagnetic Excitation" (1975),
38// Appendix F). Functions are implemented for generating angular correlations
39// in gamma decays, following Alder and Winther, Appendix G.
40// This code assumes no polarization will be detected and uses eqs (17-20).
41// Adding polarization would require using instead (13) and the more generic
42// form of the statstical tensor after decay described by equation (6)
43// Could be expanded to also generate e.g. gamma-beta and other
44// correlations as well.
45//
46// -------------------------------------------------------------------
47
48#ifndef G4POLARIZATIONTRANSITION_HH
49#define G4POLARIZATIONTRANSITION_HH
50
51#include "globals.hh"
53#include "G4PolynomialPDF.hh"
54#include "G4Pow.hh"
55
57
59{
60 typedef std::vector< std::vector<G4complex> > POLAR;
61
62 public:
63 explicit G4PolarizationTransition();
65
67 G4int twoJ1, G4int twoJ2,
68 G4int L0, G4int Lp, G4double mpRatio,
69 G4double& cosTheta, G4double& phi);
70
71 // generic static functions
73 G4int twoJ2, G4int twoJ1) const;
75 G4int Lprime, G4int twoJ2, G4int twoJ1) const;
76
77 // transition-specific functions
80
81 void DumpTransitionData(const POLAR& pol) const;
82
83 inline void SetVerbose(G4int val) { fVerbose = val; };
84
85 private:
86
88 const G4PolarizationTransition& operator=(const G4PolarizationTransition &right) = delete;
89
90 // Gamma angle generation and decay: call these functions in this order!
91 // All angles are in the same coordinate system: user may choose any axis
92 G4double GenerateGammaCosTheta(const POLAR&);
93 G4double GenerateGammaPhi(G4double& cosTheta, const POLAR&);
94
95 inline G4double LnFactorial(int k) const { return G4Pow::GetInstance()->logfactorial(k); }
96
97 G4int fVerbose;
98 G4int fTwoJ1, fTwoJ2;
99 G4int fLbar, fL;
100 G4double fDelta;
101 G4double kEps;
102 G4PolynomialPDF kPolyPDF;
103 G4LegendrePolynomial fgLegendrePolys;
104};
105
106
107#endif
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
void DumpTransitionData(const POLAR &pol) const
void SampleGammaTransition(G4NuclearPolarization *np, G4int twoJ1, G4int twoJ2, G4int L0, G4int Lp, G4double mpRatio, G4double &cosTheta, G4double &phi)
G4double F3Coefficient(G4int K, G4int K2, G4int K1, G4int L, G4int Lprime, G4int twoJ2, G4int twoJ1) const
G4double FCoefficient(G4int K, G4int L, G4int Lprime, G4int twoJ2, G4int twoJ1) const
G4double GammaTransF3Coefficient(G4int K, G4int K2, G4int K1) const
G4double GammaTransFCoefficient(G4int K) const
static G4Pow * GetInstance()
Definition: G4Pow.cc:41
G4double logfactorial(G4int Z) const
Definition: G4Pow.hh:237