Ejemplo n.º 1
0
def calc_coldens_products(nhi, av, dgr, nhi_error=0.0, av_error=0.0,
        dgr_error=0.0, ):

    from myimage_analysis import calculate_nhi, calculate_noise_cube, \
        calculate_sd, calculate_nh2, calculate_nh2_error

    # Calculate N(H2) and error
    # ---------------------------------------------------------------------------
    nh2 = calculate_nh2(nhi_image=nhi,
                              av_image=av,
                              dgr=dgr)

    # nh2 = (av / dgr - nhi) / 2
    # nh2_error = ((nh2 * ((av_error / av)**2 + (dgr_error / dgr)**2)**0.5)**2 \
    #              - nhi_error**2.0)**0.5 / 2
    comp_av_error = av_error / dgr
    comp_dgr_error = - av / dgr**2 * dgr_error
    comp_nhi_error = nhi_error
    nh2_error = 0.5 * (comp_av_error**2 + \
                      comp_nhi_error**2)**0.5

    nh = nhi + nh2
    nh_error = (nh2_error**2 + nhi_error**2)**0.5

    # Convert to column density to surface density
    # ---------------------------------------------------------------------------
    hi_sd = calculate_sd(nhi,
                               sd_factor=1/1.25)
    hi_sd_error = calculate_sd(nhi_error,
                                     sd_factor=1/1.25)

    h2_sd = calculate_sd(nh2,
                               sd_factor=1/0.625)
    h2_sd_error = calculate_sd(nh2_error,
                               sd_factor=1/0.625)

    h_sd = hi_sd + h2_sd
    h_sd_error = (hi_sd_error**2 + h2_sd_error**2)**0.5

    # Write ratio between H2 and HI
    # ---------------------------------------------------------------------------
    rh2 = h2_sd / hi_sd
    comp_hi_error = - h2_sd / hi_sd**2 * hi_sd_error
    comp_h2_error = h2_sd_error / hi_sd
    rh2_error = (comp_hi_error**2 + comp_h2_error**2)**0.5

    return ((nhi, nh2, nh, hi_sd, h2_sd, h_sd, rh2),
            (nhi_error, nh2_error, nh_error, hi_sd_error, h2_sd_error, h_sd_error,
                rh2_error))
Ejemplo n.º 2
0
def calc_coldens_products(
    nhi,
    av,
    dgr,
    nhi_error=0.0,
    av_error=0.0,
    dgr_error=0.0,
):

    from myimage_analysis import calculate_nhi, calculate_noise_cube, \
        calculate_sd, calculate_nh2, calculate_nh2_error

    # Calculate N(H2) and error
    # ---------------------------------------------------------------------------
    nh2 = calculate_nh2(nhi_image=nhi, av_image=av, dgr=dgr)

    # nh2 = (av / dgr - nhi) / 2
    # nh2_error = ((nh2 * ((av_error / av)**2 + (dgr_error / dgr)**2)**0.5)**2 \
    #              - nhi_error**2.0)**0.5 / 2
    comp_av_error = av_error / dgr
    comp_dgr_error = -av / dgr**2 * dgr_error
    comp_nhi_error = nhi_error
    nh2_error = 0.5 * (comp_av_error**2 + \
                      comp_nhi_error**2)**0.5

    nh = nhi + nh2
    nh_error = (nh2_error**2 + nhi_error**2)**0.5

    # Convert to column density to surface density
    # ---------------------------------------------------------------------------
    hi_sd = calculate_sd(nhi, sd_factor=1 / 1.25)
    hi_sd_error = calculate_sd(nhi_error, sd_factor=1 / 1.25)

    h2_sd = calculate_sd(nh2, sd_factor=1 / 0.625)
    h2_sd_error = calculate_sd(nh2_error, sd_factor=1 / 0.625)

    h_sd = hi_sd + h2_sd
    h_sd_error = (hi_sd_error**2 + h2_sd_error**2)**0.5

    # Write ratio between H2 and HI
    # ---------------------------------------------------------------------------
    rh2 = h2_sd / hi_sd
    comp_hi_error = -h2_sd / hi_sd**2 * hi_sd_error
    comp_h2_error = h2_sd_error / hi_sd
    rh2_error = (comp_hi_error**2 + comp_h2_error**2)**0.5

    return ((nhi, nh2, nh, hi_sd, h2_sd, h_sd, rh2),
            (nhi_error, nh2_error, nh_error, hi_sd_error, h2_sd_error,
             h_sd_error, rh2_error))