コード例 #1
0
        dj = alpha * Lok
        lamb = 1.5988 / (1.5988 + n_dens *
                         (n2vmr * zn2 + o2vmr * zo2 + ovmr * zo))

        MM = (n2vmr * 28 + o2vmr * 32 + ovmr * 16) / (n2vmr + o2vmr + ovmr
                                                      )  # Molecular mass

        ## Boundary condition
        #eps125 = all_coeffs_nlte[(atm, cco2, 'hr_nlte')][n_alts_trlo]
        tip = 'varfit5_nlte'
        acoeff_cco2 = tot_coeff_co2[(tip, 'acoeff', cco2)]
        bcoeff_cco2 = tot_coeff_co2[(tip, 'bcoeff', cco2)]
        asurf_cco2 = tot_coeff_co2[(tip, 'asurf', cco2)]
        bsurf_cco2 = tot_coeff_co2[(tip, 'bsurf', cco2)]

        hr_calc = npl.hr_from_ab(acoeff_cco2, bcoeff_cco2, asurf_cco2,
                                 bsurf_cco2, temp, surf_temp)
        eps125 = hr_calc[n_alts_trlo - 1]

        cose_upper_atm[(atm, cco2, 'L_esc')] = Lok
        #cose_upper_atm[(atm, cco2, 'L_esc_int2')] = Lok_int2 # finest integration grid
        cose_upper_atm[(
            atm, cco2,
            'L_esc_wutop')] = Lok_wutop  # adding a utop equal to the last uok
        cose_upper_atm[(
            atm, cco2, 'L_esc_all_wutop'
        )] = Lok_all_wutop  # adding a utop equal to the last uok
        cose_upper_atm[(
            atm, cco2, 'L_esc_all'
        )] = Lok_all  # using the mean of the escape functions for all atmospheres

        cose_upper_atm[(atm, cco2,
コード例 #2
0
print('Coeffs from interpolation!')
calc_coeffs = dict()
for nam in ['acoeff', 'bcoeff', 'asurf', 'bsurf', 'alpha']:
    int_fun = interp_coeffs[(nam, 'int_fun')]
    sc = interp_coeffs[(nam, 'signc')]

    coeff = npl.coeff_from_interp(int_fun, sc, co2vmr)
    calc_coeffs[nam] = coeff

    if np.max(np.abs(
        (coeff - coeffs_NLTE[nam][cco2 - 1, ...]) / coeff)) > 1.e-10:
        print('AAAAAAAAAAAAAAAAAAAAAAARGH', nam)
        print(coeff, coeffs_NLTE[nam][cco2 - 1, ...])

hr_calc = npl.hr_from_ab(calc_coeffs['acoeff'], calc_coeffs['bcoeff'],
                         calc_coeffs['asurf'], calc_coeffs['bsurf'], temp,
                         surf_temp)

#alpha_ = 10.*np.ones(n_alts_trhi-n_alts_trlo+1)
hr_calc = npl.recformula(calc_coeffs['alpha'],
                         L_esc,
                         lamb,
                         hr_calc,
                         co2vmr,
                         MM,
                         temp,
                         n_alts_trlo=n_alts_trlo,
                         n_alts_trhi=n_top)

hr_ref = all_coeffs_nlte[(atm, cco2, 'hr_nlte')]
hr_ref[:n_alts_lte] = all_coeffs_nlte[(atm, cco2, 'hr_lte')][:n_alts_lte]
コード例 #3
0
ファイル: reparam_weofs.py プロジェクト: fedef17/CO2_cool
    temp = atm_pt[(atm, 'temp')]
    surf_temp = atm_pt[(atm, 'surf_temp')]

    coeffs = dict()
    for conam in ['acoeff', 'bcoeff', 'asurf', 'bsurf']:
        if 'surf' in conam:
            coeffs[conam] = regrcoef[(conam,
                                      'c')] + regrcoef[(conam, 'm')] * sa
        else:
            coeffs[conam] = regrcoef[(conam,
                                      'c')] + regrcoef[(conam, 'm')] * dp

    hr_new = npl.hr_from_ab(coeffs['acoeff'],
                            coeffs['bcoeff'],
                            coeffs['asurf'],
                            coeffs['bsurf'],
                            temp,
                            surf_temp,
                            max_alts=51)

    tip = 'varfit5_nlte'
    acoeff = tot_coeff_co2[(tip, 'acoeff', cco2)]
    bcoeff = tot_coeff_co2[(tip, 'bcoeff', cco2)]
    asurf = tot_coeff_co2[(tip, 'asurf', cco2)]
    bsurf = tot_coeff_co2[(tip, 'bsurf', cco2)]

    hr_vf5 = npl.hr_from_ab(acoeff,
                            bcoeff,
                            asurf,
                            bsurf,
                            temp,
コード例 #4
0
figs = []
figs2 = []
a0s = []
a1s = []
for cco2 in range(1, 8):
    fig2, ax2 = plt.subplots()
    for atm, col in zip(allatms, npl.color_set(6)):
        temp = atm_pt[(atm, 'temp')]
        surf_temp = atm_pt[(atm, 'surf_temp')]

        acoeff, bcoeff, asurf, bsurf = npl.coeffs_from_eofreg(
            cco2, temp, surf_temp, method='1eof', regrcoef=regrcoef)
        hr_new = npl.hr_from_ab(acoeff,
                                bcoeff,
                                asurf,
                                bsurf,
                                temp,
                                surf_temp,
                                max_alts=66)
        hra, hrb = npl.hr_from_ab_decomposed(acoeff,
                                             bcoeff,
                                             asurf,
                                             bsurf,
                                             temp,
                                             surf_temp,
                                             max_alts=66)
        hr_nlte_corr = nlte_corr[(cco2, 'c')] + nlte_corr[
            (cco2, 'm1')] * hra[alt1:alt2] + nlte_corr[
                (cco2, 'm2')] * hrb[alt1:alt2]
        hr_new[alt1:alt2] = hr_new[alt1:alt2] + hr_nlte_corr
コード例 #5
0
ファイル: fomi_ab_LTE_step5.py プロジェクト: fedef17/CO2_cool
        # i coeff specifici per ogni cco2:
        acoeff_cco2 = tot_coeff_co2[(tip, 'acoeff', cco2)]
        bcoeff_cco2 = tot_coeff_co2[(tip, 'bcoeff', cco2)]
        asurf_cco2 = tot_coeff_co2[(tip, 'asurf', cco2)]
        bsurf_cco2 = tot_coeff_co2[(tip, 'bsurf', cco2)]

        for atm in allatms:
            temp = atm_pt[(atm, 'temp')]
            surf_temp = atm_pt[(atm, 'surf_temp')]

            tit = 'co2: {} - atm: {}'.format(cco2, atm)
            xlab = 'CR (K/day)'
            ylab = 'Alt (km)'

            hr_ref = all_coeffs[(atm, cco2, 'hr_ref')][:n_alts]
            hr_calc_step5 = npl.hr_from_ab(acoeff, bcoeff, asurf, bsurf, temp,
                                           surf_temp)[:n_alts]
            hr_calc_step4 = npl.hr_from_ab(acoeff_cco2, bcoeff_cco2,
                                           asurf_cco2, bsurf_cco2, temp,
                                           surf_temp)[:n_alts]

            hrs = [hr_ref, hr_calc_step4, hr_calc_step5]
            labels = ['ref', 'step 4', 'step 5']
            fig, a0, a1 = npl.manuel_plot(alts,
                                          hrs,
                                          labels,
                                          xlabel=xlab,
                                          ylabel=ylab,
                                          title=tit,
                                          xlimdiff=(-2.5, 2.5))

            figs.append(fig)
コード例 #6
0
ファイル: reparam_weofs_v2.py プロジェクト: fedef17/CO2_cool
        for conam in ['acoeff', 'bcoeff', 'asurf', 'bsurf']:
            if 'surf' in conam:
                coeffs[conam] = regrcoef[(cco2, conam, 'c')] + regrcoef[
                    (cco2, conam, 'm')] * sa
            else:
                coeffs[conam] = regrcoef[(cco2, conam, 'c')] + regrcoef[
                    (cco2, conam, 'm')] * dp
                coeffs[(conam,
                        'v2')] = regrcoef[(cco2, conam, 'c1')] + regrcoef[
                            (cco2, conam, 'm1')] * dp + regrcoef[
                                (cco2, conam, 'm2')] * dp1

        hr_new = npl.hr_from_ab(coeffs['acoeff'],
                                coeffs['bcoeff'],
                                coeffs['asurf'],
                                coeffs['bsurf'],
                                temp,
                                surf_temp,
                                max_alts=66)
        hr_new_v2 = npl.hr_from_ab(coeffs[('acoeff', 'v2')],
                                   coeffs[('bcoeff', 'v2')],
                                   coeffs['asurf'],
                                   coeffs['bsurf'],
                                   temp,
                                   surf_temp,
                                   max_alts=66)

        tip = 'varfit5'
        acoeff = tot_coeff_co2[(tip, 'acoeff', cco2)]
        bcoeff = tot_coeff_co2[(tip, 'bcoeff', cco2)]
        asurf = tot_coeff_co2[(tip, 'asurf', cco2)]