#!/bin/python

from numpy import pi, sqrt
from scipy.special import zeta

e=4.8032068e-10 # esu (cgs units)
qe=1.602176565e-12 # erg
m=9.1093897e-28 # g
me=510.998928 # kev
c=2.99792458e10 # cm.s-1
k=1.380658E-16 # erg.K-1
h=6.62606957e-27 # erg.s
hb=1.05457266E-27 # erg.s
alpha=1./137.035999679
lambdaC=hb/(m*c)
Mpc=(3.0856776e+16)*1e8 # Mpc to cm
erg_to_GeV=1/(1.602176565e-3)
degre=180/pi
yr=3600*24*365.25 # s

# Cosmology
a0=1.
H0=67.8*1e5/(Mpc) # s-1
omegaM = 0.3
omegaK = 0
omegaL = 0.7

# CMB 
Tcmb=2.7255 # K
Tcmbp=(k*Tcmb)/(m*c*c) # Adimentionnal thermal energy
nCMB=(16*pi*zeta(3,1))*(k*Tcmb/(h*c))**3 # cm^-3
Ecmb=(pi**4/(30*zeta(3,1)))*Tcmbp*me*1e3 #eV
rhoCMB=Ecmb*nCMB #eV.cm^-3

# EBL
Eebl=1 #eV

# Particles physics
r0=e*e/(m*c*c)
sigmaT=8.*pi*(r0**2)/3. # Thomson cross section