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author | Aaron LI <aly@aaronly.me> | 2018-01-05 15:49:46 +0800 |
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committer | Aaron LI <aly@aaronly.me> | 2018-01-05 15:49:46 +0800 |
commit | d45555644c37da11925bbb68cfe6929dd6dd32f4 (patch) | |
tree | c2f7e0fed6cd1194c335b2dca46b0d9a60191632 | |
parent | 3748c60b5d80db25f713d3906a2c0106368a09ac (diff) | |
download | fg21sim-d45555644c37da11925bbb68cfe6929dd6dd32f4.tar.bz2 |
clusters/halo: add _is_turb_active(), update _velocity_turb() etc.
-rw-r--r-- | fg21sim/extragalactic/clusters/halo.py | 41 |
1 files changed, 29 insertions, 12 deletions
diff --git a/fg21sim/extragalactic/clusters/halo.py b/fg21sim/extragalactic/clusters/halo.py index f9e9eb0..3812df6 100644 --- a/fg21sim/extragalactic/clusters/halo.py +++ b/fg21sim/extragalactic/clusters/halo.py @@ -551,12 +551,10 @@ class RadioHalo: # Maximum acceleration timescale when no turbulence acceleration # NOTE: see the above WARNING! tau_max = 10.0 # [Gyr] - if t < self.age_begin: - # To derive the initial electron spectrum - tau_acc = tau_max - else: - # Turbulence acceleration and beyond + if self._is_turb_active(t): tau_acc = self.tau_acceleration(t=t) + else: + tau_acc = tau_max # Impose the maximum acceleration timescale if tau_acc > tau_max: tau_acc = tau_max @@ -657,7 +655,7 @@ class RadioHalo: B = helper.magnetic_field(mass=mass, z=z, configs=self.configs) return B - def _velocity_turb(self, t=None): + def _velocity_turb(self, t): """ Calculate the turbulence velocity dispersion (i.e., turbulence Mach number). @@ -687,16 +685,35 @@ class RadioHalo: The turbulence velocity dispersion Unit: [km/s] """ - if t is None: - t = self.age_begin z = COSMO.redshift(t) - mass = self.mass_merged(t) - R_vir = helper.radius_virial(mass=mass, z=z) * AUC.kpc2cm # [cm] - v2_vir = (AC.G * self.M_main*AUC.Msun2g / R_vir) * AUC.cm2km**2 + mass_merged = self.mass_merged(t) + mass_main = self.mass_main(t) + mass_sub = self.mass_sub(t) + R_vir = helper.radius_virial(mass_merged, z) * AUC.kpc2cm # [cm] + v2_vir = (AC.G * mass_main*AUC.Msun2g / R_vir) * AUC.cm2km**2 fmass = helper.fmass_nfw(self.f_lturb) - v2_turb = v2_vir * (self.eta_turb / fmass) * (self.M_sub / mass) + v2_turb = v2_vir * (self.eta_turb / fmass) * (mass_sub / mass_merged) return np.sqrt(v2_turb) + def _is_turb_active(self, t): + """ + Is the turbulence acceleration is active at the given (cosmic) time? + + NOTE + ---- + Considering that the turbulence acceleration is a 2nd-order Fermi + process, it has only an effective acceleration time ~<1 Gyr. + Therefore, only during the period that strong turbulence persists + in the ICM that the turbulence could effectively accelerate the + relativistic electrons. + """ + t_merger = self._merger_time(t) + t_turb = self.time_turbulence(t=t_merger) + if (t >= t_merger) or (t <= t_merger + t_turb): + return True + else: + return False + def _loss_ionization(self, gamma, t): """ Energy loss through ionization and Coulomb collisions. |