def get_A(self, function):
A = zeros((self.nmax, self.nmax), dtype=complex)
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
n = i + m
l = k + m
func = lambda nu: function(m, n,l)(nu) * \
spheroidal.metric_phi(nu, self.particle) *\
spheroidal.get_integral_metric(self.particle)(nu)
A[i][k] = spheroidal.quad(func, -1, 1)
return mat(A)
def get_A(self,function):
A = zeros((self.nmax, self.nmax), dtype=complex)
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
n = i + m
l = k + m
func = lambda nu: function(m, n,l)(nu) * \
spheroidal.metric_phi(nu, self.particle) *\
spheroidal.get_integral_metric(self.particle)(nu)
A[i][k] = spheroidal.quad(func, -1, 1)
return mat(A)
def __get_Z(self, z_function, c2, c1, rank):
Z = zeros((self.nmax, self.nmax), dtype=complex)
type = self.particle.type
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
l = i + m
n = k + m
cv_l = get_cv(m, l, c2, type)
cv_n = get_cv(m, n, c1, type)
func = lambda nu: z_function(m, l, c2, cv_l, rank, self.particle)(nu) *\
ang1_cv(m, n, c1, cv_n, type, nu)[0] * spheroidal.metric_phi(nu, self.particle)\
* spheroidal.get_integral_metric(self.particle)(nu)
Z[i][k] = spheroidal.quad(func, -1, 1)
return mat(Z)
def __get_Z(self,z_function,c2,c1, rank):
Z = zeros((self.nmax, self.nmax),dtype=complex)
type = self.particle.type
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
l = i + m
n = k + m
cv_l = get_cv(m, l, c2, type)
cv_n = get_cv(m, n, c1, type)
func = lambda nu: z_function(m, l, c2, cv_l, rank, self.particle)(nu) *\
ang1_cv(m, n, c1, cv_n, type, nu)[0] * spheroidal.metric_phi(nu, self.particle)\
* spheroidal.get_integral_metric(self.particle)(nu)
Z[i][k] = spheroidal.quad(func, -1, 1)
return mat(Z)
def get_BRi(self):
Br = zeros((self.nmax, self.nmax), dtype=complex)
type = self.particle.type
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
n = i + m
l = k + m
cv_l = get_cv(m, l, self.c2, type)
cv_n = get_cv(m, n, self.c1, type)
func = lambda nu: (spheroidal.get_a_function(m, l, self.c2, cv_l, 1, self.particle)(nu) * \
spheroidal.get_b_function(m, n, self.c1, cv_n, 1, self.particle)(nu) - \
spheroidal.get_c_function(m, l, self.c2, cv_l, 1, self.particle)(nu) * \
spheroidal.get_a_function(m, n, self.c1, cv_n, 1, self.particle)(nu)) * spheroidal.metric_phi(nu, self.particle)\
* spheroidal.get_integral_metric(self.particle)(nu)
Br[i][k] = spheroidal.quad(func, -1, 1)
return -1j * mat(Br)
def get_BRi(self):
Br = zeros((self.nmax, self.nmax), dtype=complex)
type = self.particle.type
m = 1
for i in range(self.nmax):
for k in range(self.nmax):
n = i + m
l = k + m
cv_l = get_cv(m, l, self.c2, type)
cv_n = get_cv(m, n, self.c1, type)
func = lambda nu: (spheroidal.get_a_function(m, l, self.c2, cv_l, 1, self.particle)(nu) * \
spheroidal.get_b_function(m, n, self.c1, cv_n, 1, self.particle)(nu) - \
spheroidal.get_c_function(m, l, self.c2, cv_l, 1, self.particle)(nu) * \
spheroidal.get_a_function(m, n, self.c1, cv_n, 1, self.particle)(nu)) * spheroidal.metric_phi(nu, self.particle)\
* spheroidal.get_integral_metric(self.particle)(nu)
Br[i][k] = spheroidal.quad(func, -1, 1)
return -1j * mat(Br)
