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author | Aaron LI <aly@aaronly.me> | 2017-08-14 20:48:20 +0800 |
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committer | Aaron LI <aly@aaronly.me> | 2017-08-14 20:48:20 +0800 |
commit | 1127396c18feed61c13e6c76bef48fca1123c33b (patch) | |
tree | 20363ebf32ba36538bcd65a3939692865b94a351 /fg21sim/extragalactic/clusters | |
parent | eed8914bb3b084dcb499c1112c9980aea9a480bd (diff) | |
download | fg21sim-1127396c18feed61c13e6c76bef48fca1123c33b.tar.bz2 |
clusters: Rename property "injection_rate" and save into halos data
Signed-off-by: Aaron LI <aly@aaronly.me>
Diffstat (limited to 'fg21sim/extragalactic/clusters')
-rw-r--r-- | fg21sim/extragalactic/clusters/halo.py | 74 | ||||
-rw-r--r-- | fg21sim/extragalactic/clusters/main.py | 1 |
2 files changed, 38 insertions, 37 deletions
diff --git a/fg21sim/extragalactic/clusters/halo.py b/fg21sim/extragalactic/clusters/halo.py index f056735..b4a504d 100644 --- a/fg21sim/extragalactic/clusters/halo.py +++ b/fg21sim/extragalactic/clusters/halo.py @@ -206,6 +206,42 @@ class RadioHalo: """ return helper.magnetic_field(self.M_obs) + @property + def injection_rate(self): + """ + The constant electron injection rate assumed. + Unit: [cm^-3 Gyr^-1] + + The injection rate is parametrized by assuming that the total + energy injected in the relativistic electrons during the cluster + life (e.g., ``age_obs`` here) is a fraction (``self.eta_e``) + of the total thermal energy of the cluster. + + Note that we assume that the relativistic electrons only permeate + the halo volume (i.e., of radius ``self.radius``) instead of the + whole cluster volume (of virial radius). + + Qe(γ) = Ke * γ^(-s), + int[ Qe(γ) γ me c^2 ]dγ * t_cluster * V_halo = + eta_e * e_th * V_cluster + => + Ke = [(s-2) * eta_e * e_th * γ_min^(s-2) * (R_vir/R_halo)^3 / + me / c^2 / t_cluster] + + References + ---------- + Ref.[cassano2005],Eqs.(31,32,33) + """ + s = self.injection_index + R_halo = self.radius # [kpc] + R_vir = helper.radius_virial(self.M_obs, self.z_obs) # [kpc] + e_thermal = helper.density_energy_thermal(self.M_obs, self.z_obs) + term1 = (s-2) * self.eta_e * e_thermal # [erg cm^-3] + term2 = self.gamma_min**(s-2) * (R_vir/R_halo)**3 + term3 = AU.mec2 * self.age_obs # [erg Gyr] + Ke = term1 * term2 / term3 # [cm^-3 Gyr^-1] + return Ke + def calc_electron_spectrum(self, zbegin=None, zend=None, n0_e=None): """ Calculate the relativistic electron spectrum by solving the @@ -381,7 +417,7 @@ class RadioHalo: ---------- Ref.[cassano2005],Eqs.(31,32,33) """ - Ke = self._injection_rate + Ke = self.injection_rate # [cm^-3 Gyr^-1] Qe = Ke * gamma**(-self.injection_index) return Qe @@ -498,42 +534,6 @@ class RadioHalo: tau = tau_ref / self.beta_turb return tau - @property - def _injection_rate(self): - """ - The constant electron injection rate assumed. - Unit: [cm^-3 Gyr^-1] - - The injection rate is parametrized by assuming that the total - energy injected in the relativistic electrons during the cluster - life (e.g., ``age_obs`` here) is a fraction (``self.eta_e``) - of the total thermal energy of the cluster. - - Note that we assume that the relativistic electrons only permeate - the halo volume (i.e., of radius ``self.radius``) instead of the - whole cluster volume (of virial radius). - - Qe(γ) = Ke * γ^(-s), - int[ Qe(γ) γ me c^2 ]dγ * t_cluster * V_halo = - eta_e * e_th * V_cluster - => - Ke = [(s-2) * eta_e * e_th * γ_min^(s-2) * (R_vir/R_halo)^3 / - me / c^2 / t_cluster] - - References - ---------- - Ref.[cassano2005],Eqs.(31,32,33) - """ - s = self.injection_index - R_halo = self.radius # [kpc] - R_vir = helper.radius_virial(self.M_obs, self.z_obs) # [kpc] - e_thermal = helper.density_energy_thermal(self.M_obs, self.z_obs) - term1 = (s-2) * self.eta_e * e_thermal # [erg cm^-3] - term2 = self.gamma_min**(s-2) * (R_vir/R_halo)**3 - term3 = AU.mec2 * self.age_obs # [erg Gyr] - Ke = term1 * term2 / term3 # [cm^-3 Gyr^-1] - return Ke - def _loss_ion(self, gamma, t): """ Energy loss through ionization and Coulomb collisions. diff --git a/fg21sim/extragalactic/clusters/main.py b/fg21sim/extragalactic/clusters/main.py index cb2d7b8..b515d59 100644 --- a/fg21sim/extragalactic/clusters/main.py +++ b/fg21sim/extragalactic/clusters/main.py @@ -270,6 +270,7 @@ class GalaxyClusters: "angular_radius": halo.angular_radius, # [arcsec] "volume": halo.volume, # [kpc^3] "B": halo.magnetic_field, # [uG] + "Ke": halo.injection_rate, # [cm^-3 Gyr^-1] "n_e": n_e, # [cm^-3] "frequency": self.frequencies, # [MHz] "emissivity": emissivity, # [erg/s/cm^3/Hz] |