Replaced (probably wrongly implemented) Xu's B coefficients with Xu/Cruzan B.

Former-commit-id: ea0f90e263c7e41a60bb1aeda0dc5efa2021b3dd
This commit is contained in:
Marek Nečada 2018-03-08 10:31:11 +00:00
parent 2cab9c1307
commit 93137b29b3
1 changed files with 29 additions and 3 deletions

View File

@ -289,7 +289,7 @@ complex double qpms_trans_single_B_Xu(int m, int n, int mu, int nu, sph_t kdlj,
complex double qpms_trans_single_B(qpms_normalisation_t norm,
int m, int n, int mu, int nu, sph_t kdlj,
bool r_ge_d, qpms_bessel_t J) {
assert(0); // FIXME probably gives wrong values, do not use.
//assert(0); // FIXME probably gives wrong values, do not use.
if(r_ge_d) J = QPMS_BESSEL_REGULAR;
double costheta = cos(kdlj.theta);
@ -442,6 +442,8 @@ static inline size_t qpms_trans_calculator_index_yyu(const qpms_trans_calculator
#define SQ(x) ((x)*(x))
static inline int isq(int x) { return x * x; }
static inline double fsq(double x) {return x * x; }
static void qpms_trans_calculator_multipliers_A_general(
qpms_normalisation_t norm,
@ -484,6 +486,17 @@ static void qpms_trans_calculator_multipliers_A_general(
}
// as in [Xu](61)
double cruzan_bfactor(int M, int n, int mu, int nu, int p) {
double logprefac = lgamma(n+M+1) - lgamma(n-M+1) + lgamma(nu+mu+1) - lgamma(nu-mu+1)
+ lgamma(p-M-mu+2) - lgamma(p+M+mu+2);
logprefac *= 0.5;
return min1pow(mu+M) * (2*p+3) * exp(logprefac)
* gsl_sf_coupling_3j(2*n, 2*nu, 2*(p+1), 2*M, 2*mu, 2*(-M-mu))
* gsl_sf_coupling_3j(2*n, 2*nu, 2*p, 0, 0, 0);
}
void qpms_trans_calculator_multipliers_B_general(
qpms_normalisation_t norm,
complex double *dest, int m, int n, int mu, int nu, int Qmax){
@ -498,9 +511,22 @@ void qpms_trans_calculator_multipliers_B_general(
double normfac = qpms_trans_normfac(norm,m,n,mu,nu);
// TODO use csphase to modify normfac here!!!!
// normfac = xxx ? -normfac : normfac;
normfac *= min1pow(m);//different from old taylor
//normfac *= min1pow(m);//different from old taylor
double presum = min1pow(1-m) * (2*nu+1)/(2.*(n*(n+1)))
* exp(lgamma(n+m+1) - lgamma(n-m+1) + lgamma(nu-mu+1) - lgamma(nu+mu+1)
+ normlogfac)
* normfac;
for(int q = BQ_OFFSET; q <= Qmax; ++q) {
int p = n+nu-2*q;
double t = sqrt(
(isq(p+1)-isq(n-nu))
* (isq(n+nu+1)-isq(p+1))
);
dest[q-BQ_OFFSET] = presum * t
* cruzan_bfactor(-m,n,mu,nu,p) * ipow(p+1);
}
}
/*static*/ void qpms_trans_calculator_multipliers_B_general_oldXu(