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cosmotool/python_sample/ksz/gal_prof.py

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Python
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import numpy as np
import numexpr as ne
from .constants import *
# -----------------------------------------------------------------------------
# Generic profile generator
# -----------------------------------------------------------------------------
class KSZ_Profile(object):
R_star= 0.0 # 15 kpc/h
L_gal0 = 10**(0.4*(tmpp_cat['Msun']-tmpp_cat['Mstar']))
def __init__(self):
self.rGalaxy = 1.0
def evaluate_profile(self, r):
raise NotImplementedError("Abstract function")
def projected_profile(self, cos_theta,angularDistance):
idx_base = idx = np.where(cos_theta > 0)[0]
tan_theta_2 = 1/(cos_theta[idx]**2) - 1
tan_theta_2_max = (self.rGalaxy/angularDistance)**2
tan_theta_2_min = (self.R_star/angularDistance)**2
idx0 = np.where((tan_theta_2 < tan_theta_2_max))
idx = idx_base[idx0]
tan_theta_2 = tan_theta_2[idx0]
tan_theta = np.sqrt(tan_theta_2)
r = (tan_theta*angularDistance)
m,idx_mask = self.evaluate_profile(r)
idx_mask = idx[idx_mask]
idx_mask = np.append(idx_mask,idx[np.where(tan_theta_2<tan_theta_2_min)[0]])
if tan_theta_2.size > 0:
idx_mask = np.append(idx_mask,idx[tan_theta_2.argmin()])
return idx,idx_mask,m
# -----------------------------------------------------------------------------
# Isothermal profile generator
# -----------------------------------------------------------------------------
class KSZ_Isothermal(KSZ_Profile):
sigma_FP=160e3 #m/s
R_innergal = 0.030
def __init__(self, Lgal, x, y=0.0):
"Support for Isothermal profile"
super(KSZ_Isothermal,self).__init__()
self.R_gal = 0.226 * x
self.R_innergal *= y
self.rho0 = self.sigma_FP**2/(2*np.pi*G) # * (Lgal/L_gal0)**(2./3)
self.rGalaxy = self.R_gal*(Lgal/self.L_gal0)**(1./3)
self.rInnerGalaxy = self.R_innergal*(Lgal/self.L_gal0)**(1./3)
self._prepare()
def _prepare(self):
pass
def evaluate_profile(self,r):
rho0, rGalaxy, rInner = self.rho0, self.rGalaxy, self.rInnerGalaxy
D = {'rho0':rho0, 'rGalaxy':rGalaxy, 'rInner': rInner, 'Mpc':Mpc }
Q = np.zeros(r.size)
cond = (r<=0)
Q[cond] = rho0*2/Mpc * (rGalaxy-rInner)/(rGalaxy*rInner)
cond = (r>0)*(r <= rInner)
D['r'] = r[cond]
Q[cond] = ne.evaluate('rho0*2/(Mpc*r) * (arctan(sqrt( (rGalaxy/r)**2 -1 )) - arctan(sqrt( (rInner/r)**2 - 1 )))',
local_dict=D)
cond = (r > rInner)*(r <= rGalaxy)
D['r'] = r[cond]
Q[cond] = ne.evaluate('rho0*2/(Mpc*r) * arctan(sqrt( (rGalaxy/r)**2 -1 ))',
local_dict=D)
return Q,np.where(r<rInner)[0]
# -----------------------------------------------------------------------------
# NFW profile generator
# -----------------------------------------------------------------------------
class KSZ_NFW(KSZ_Profile):
""" Support for NFW profile
"""
def __init__(self,x,y=0.0):
from numpy import log, pi
if 'pre_nfw' not in self:
self._prepare()
kiso = KSZ_Isothermal(x,y)
r_is = kiso.rGalaxy
rho_is = kiso.rho0
r_inner = kiso.rInnerGalaxy
self.Mgal = rho_is*4*pi*(r_is/args.x)*Mpc #Lgal*M_over_L_galaxy
self.Rvir = r_is/x
cs = self._get_concentration(Mgal)
self.rs = Rvir/cs
b = (log(1.+cs)-cs/(1.+cs))
self.rho_s = Mgal/(4*pi*b*(rs*Mpc)**3)
def _prepare(self, _x_min=1e-4, _x_max=1e4):
from scipy.integrate import quad
from numpy import sqrt, log10
from scipy.interpolate import interp1d
lmin = log10(x_min)
lmax = log10(x_max)
x = 10**(np.arange(100)*(lmax-lmin)/100.+lmin)
profile = np.empty(x.size)
nu_tilde = lambda u: (1/(u*(1+u)**2))
for i in range(x.size):
if x[i] < args.x:
profile[i] = 2*quad(lambda y: (nu_tilde(sqrt(x[i]**2+y**2))), 0, np.sqrt((args.x)**2-x[i]**2))[0]
else:
profile[i] = 0
# Insert the interpolator into the class definition
KSZ_NFW.pre_nfw = self.pre_nfw = interp1d(x,prof)
def _get_concentration(self, Mvir):
from numpy import exp, log
return exp(0.971 - 0.094*log(Mvir/(1e12*MassSun)))
def evaluate_profile(self,r):
cs = self._get_concentration(self.Mvir)
rs = self.Rvir/cs
return self.rho_s*rs*Mpc*self.pre_nfw(r/rs),np.array([],dtype=int)
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