Exemple #1
0
def calc_chi2(profs, nuparstore):
    chi2 = 0.
    off = 0
    for pop in np.arange(gp.pops)+1:
        # nu with normalization to 1 in first bin
        nuparams = nuparstore[pop-1]
        Numodel  = rho_param_INT_Rho(gp.xepol, nuparams) # [Msun/pc^2], on nipol bins
        # Numodel = rho_INT_Rho(gp.xipol, profs.get_nu(pop)) # [Msun/pc^2]
        Nudata  = compare_nu(pop,True,False)               # [Msun/pc^2]
        Nuerr   = compare_nu(pop,True,True)                # [Msun/pc^2]
        
        chi2_nu  = chi2red(Numodel, Nudata, Nuerr, gp.dof) # [1]
        chi2 += chi2_nu                 # [1]
        
        sigdat  = gp.dat.sigdat[pop]    # [km/s]
        sigerr  = gp.dat.sigerr[pop]    # [km/s]
        chi2_sig = chi2red(profs.get_sig(pop), sigdat, sigerr, gp.dof) # [1]
        chi2 += chi2_sig                # [1]
        print('profs: ', profs.get_nu(pop)[0],', data: ', Nudata[0])
        print('chi2_nu, chi2_sig = ',chi2_nu,' ',chi2_sig)
        # TODO: check huge offset of Numodel (1000s Msun/pc^2) and Nudata (0.3 Msun/pc^2)
        if gp.usekappa:
            kapdat  = gp.dat.kapdat[pop] # [1]
            kaperr  = gp.dat.kaperr[pop] # [1]
            chi2_kap = chi2red(profs.get_kap(pop), kapdat, kaperr, gp.dof) # [1]
            chi2 += chi2_kap            # [1]

    return chi2
Exemple #2
0
def sig_kap_los(r0, pop, rho_param, nu_param, beta_param):
    surfden = rho_param_INT_Rho(r0, rho_param) # total surface density
    siglos2surf,kaplos4surf = ant_sigkaplos2surf(r0, beta_param,\
                                                 rho_param, nu_param)
    # takes [pc], [1*pc], [munit], [munit/pc^3], returns [(km/s)^2], [1]

    siglos2 = siglos2surf[:-3]/surfden   # [(km/s)^2]
    siglos  = np.sqrt(siglos2)           # [km/s]

    if gp.usekappa:
        kaplos4     = kaplos4surf/surfden
        # takes [munit/pc^2 (km/s)^2], gives back [(km/s)^2]
        
        kaplos = kaplos4/(siglos2**2)
        # - 3.0 # subtract 3.0 for Gaussian distribution in Fisher version.
    else:
        kaplos = 3.*np.ones(len(siglos))

    return siglos, kaplos                                 # [km/s], [1]