示例#1
0
    H = cosmo.get_Hubble(a_start) * 1000 / Mpc  # 1/sec

    # Set photoheating and photoionization rates
    uvb_rates = Load_Grackle_UVB_File(uvb_rates_file)
    uvb_parameters = {
        'scale_H': 1.0,
        'scale_He': 1.0,
        'delta_z_H': 0.0,
        'delta_z_He': 0.0
    }
    uvb_rates = Modify_UVB_Rates(uvb_parameters, uvb_rates)
    solution = Integrate_Evolution(n_H_comov,
                                   n_He_comov,
                                   T_start,
                                   uvb_rates,
                                   cosmo,
                                   z_start,
                                   z_end,
                                   n_samples,
                                   output_to_file=None)
    output_file_name = output_dir + 'solution.h5'
    Write_Solution(solution, output_file_name)
    #
    # z      = solution['z']
    # nH     = solution['n_H']
    # nHII   = solution['n_HII']
    # nHe    = solution['n_He']
    # nHeIII = solution['n_HeIII']
    # ion_frac_H  = 0.99
    # ion_frac_He = 0.99
    # HII_frac   = nHII / nH
示例#2
0
rho_gas_mean = cosmo.rho_gas_mean  # kg cm^-3
rho_H = X * rho_gas_mean
rho_He = (1 - X) * rho_gas_mean
n_H_comov = rho_H / M_p  # cm^-3
n_He_comov = rho_He / (4 * M_p)  # cm^-3
a_start = 1. / (z_start + 1)
rho_cgs = rho_gas_mean * 1e3 / a_start**3

H = cosmo.get_Hubble(a_start) * 1000 / Mpc  # 1/sec

for model_id, model_file_name in enumerate(model_files):

    file_name = input_dir + model_file_name
    rates = Load_Grackle_UVB_File(file_name)

    uvb_parameters = {
        'scale_He': 1.0,
        'scale_H': 1.0,
        'delta_z_He': 0.0,
        'delta_z_H': 0.0
    }
    uvb_rates = Modify_UVB_Rates(uvb_parameters, rates)

    solution = Integrate_Evolution(n_H_comov, n_He_comov, T_start, uvb_rates,
                                   cosmo, z_start, z_end, n_samples)

    output_file_name = output_dir + f'solution_{model_id}.h5'
    Write_Solution(solution, output_file_name)
    # Plot_Solution( output_dir, solution, file_name=f'solution_{model_id}.png' )
    # Plot_HI_fraction( output_dir, solution=solution, input_file=None, solutions=None, file_name='HI_fraction.png', HI_data=None, data_labels=None )