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authorAaron LI <aly@aaronly.me>2018-10-31 17:24:16 +0800
committerAaron LI <aly@aaronly.me>2018-10-31 17:24:16 +0800
commit23e033542455ae6105edf7f28c945d9cb7e6223b (patch)
treede99bb33cd1aaa3100d1b4a995da3900ddb9d63b /fg21sim/extragalactic/clusters
parent01c61b6b3c9eb8c1d5723d4f9ca9da12b7a3d0be (diff)
downloadfg21sim-23e033542455ae6105edf7f28c945d9cb7e6223b.tar.bz2
clusters/halo: Support to calculate the fiducial electron spectrum
The fiducial electron spectrum is the one that is derived with the turbulent acceleration turned off. It can be used to determine whether the acceleration is indeed effective for one cluster and then further determine whether the radio halo is formed/observable.
Diffstat (limited to 'fg21sim/extragalactic/clusters')
-rw-r--r--fg21sim/extragalactic/clusters/halo.py27
1 files changed, 20 insertions, 7 deletions
diff --git a/fg21sim/extragalactic/clusters/halo.py b/fg21sim/extragalactic/clusters/halo.py
index 4d0e41b..c83e791 100644
--- a/fg21sim/extragalactic/clusters/halo.py
+++ b/fg21sim/extragalactic/clusters/halo.py
@@ -423,19 +423,20 @@ class RadioHalo:
n_inj = self.fp_injection(self.gamma)
n0_e = n_inj * (self.age_begin - self.time_init)
- logger.debug("Derive the initial electron spectrum ...")
+ logger.debug("Deriving the initial electron spectrum ...")
self._acceleration_disabled = True
- dt = self.fpsolver.tstep
tstart = self.age_begin
tstop = self.age_begin + self.time_init
- self.fpsolver.tstep = 3 * dt # Bigger step to save time
+ self.fpsolver.tstep = self.time_step * 3 # To save time
+
n_e = self.fpsolver.solve(u0=n0_e, tstart=tstart, tstop=tstop)
- self.fpsolver.tstep = dt
self._acceleration_disabled = False
+ self.fpsolver.tstep = self.time_step
return n_e
- def calc_electron_spectrum(self, tstart=None, tstop=None, n0_e=None):
+ def calc_electron_spectrum(self, tstart=None, tstop=None, n0_e=None,
+ fiducial=False):
"""
Calculate the relativistic electron spectrum by solving the
Fokker-Planck equation.
@@ -456,11 +457,15 @@ class RadioHalo:
The initial electron spectrum (number distribution).
Default: ``self.electron_spec_init``
Unit: [cm^-3]
+ fiducial : bool
+ Whether to disable the turbulent acceleration and derive the
+ fiducial electron spectrum?
+ Default: ``False``
Returns
-------
n_e : float 1D `~numpy.ndarray`
- The solved electron spectrum at ``tstop``.
+ The solved electron spectrum.
Unit: [cm^-3]
"""
if tstart is None:
@@ -469,7 +474,15 @@ class RadioHalo:
tstop = self.age_obs
if n0_e is None:
n0_e = self.electron_spec_init
- return self.fpsolver.solve(u0=n0_e, tstart=tstart, tstop=tstop)
+ if fiducial:
+ self._acceleration_disabled = True
+ self.fpsolver.tstep = self.time_step * 2 # To save time
+
+ n_e = self.fpsolver.solve(u0=n0_e, tstart=tstart, tstop=tstop)
+ self._acceleration_disabled = False
+ self.fpsolver.tstep = self.time_step
+
+ return n_e
def fp_injection(self, gamma, t=None):
"""