Пример #1
0
                       np.power(blob.d_L, 2) * np.power(r, 2) *
                       np.power(target.epsilon_0, 2))
    sed = prefactor_num / prefactor_denom * integral_gamma
    return sed.to("erg cm-2 s-1")


# target and distance
r = 1e16 * u.cm
L_0 = 2e46 * u.Unit("erg s-1")
epsilon_0 = 1e-3
ps = PointSourceBehindJet(L_0, epsilon_0)

nu = np.logspace(20, 30) * u.Hz

# increase the size of the gamma grid
blob.set_gamma_size(500)
sed_trapz = sed_flux_point_source(nu, blob, ps, r, np.trapz)
sed_trapz_loglog = sed_flux_point_source(nu, blob, ps, r, trapz_loglog)
plt.loglog(nu, sed_trapz, marker="o", label="np.trapz")
plt.loglog(nu,
           sed_trapz_loglog,
           ls="--",
           marker=".",
           label="naima trapz_loglog")
plt.legend()
plt.show()

# a test with external Compton on point like source
print("-> test with EC on disk")
# let us adopt the same disk parameters of Finke 2016
M_BH = 1.2 * 1e9 * M_sun.cgs
Пример #2
0
    10,
    1 * u.G,
    pwl_spectrum_norm_test,
    pwl_dict_test,
)
# blob reproducing the EC scenarios in Finke 2016
bpwl_blob_test = Blob(
    1e16 * u.cm,
    1,
    40,
    40,
    0.56 * u.G,
    bpwl_spectrum_norm_test,
    bpwl_dict_test,
)
bpwl_blob_test.set_gamma_size(400)
# global disk
M_BH = 1.2 * 1e9 * M_sun.cgs
L_disk = 2e46 * u.Unit("erg s-1")
eta = 1 / 12
R_in = 6
R_out = 200
disk_test = SSDisk(M_BH, L_disk, eta, R_in, R_out, R_g_units=True)
# global blr
xi_line = 0.024
R_line = 1e17 * u.cm
blr_test = SphericalShellBLR(L_disk, xi_line, "Lyalpha", R_line)
# global dt
T_dt = 1e3 * u.K
csi_dt = 0.1
dt_test = RingDustTorus(L_disk, csi_dt, T_dt)
Пример #3
0
        "p1": 2.0,
        "p2": 3.5,
        "gamma_b": 1e4,
        "gamma_min": 20,
        "gamma_max": 5e7,
    },
}
R_B_BPL = 1e16 * u.cm
B_BPL = 0.56 * u.G
Z_BPL = 1
DELTA_D_BPL = 40
GAMMA_BPL = 40
BPL_BLOB = Blob(
    R_B_BPL, Z_BPL, DELTA_D_BPL, GAMMA_BPL, B_BPL, BPL_SPECTRUM_NORM, BPL_DICT
)
BPL_BLOB.set_gamma_size(500)


class TestSynchrotronSelfCompton:
    """class grouping all tests related to the Synchrotron Slef Compton class"""

    def test_ssc_reference_sed(self):
        """test agnpy SSC SED against the one in Figure 7.4 of Dermer Menon"""
        sampled_ssc_table = np.loadtxt(
            f"{tests_dir}/sampled_seds/ssc_figure_7_4_dermer_menon_2009.txt",
            delimiter=",",
            comments="#",
        )
        sampled_ssc_nu = sampled_ssc_table[:, 0] * u.Hz
        sampled_ssc_sed = sampled_ssc_table[:, 1] * u.Unit("erg cm-2 s-1")
        # agnpy