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path: root/fg21sim/extragalactic/clusters/halo.py
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* clusters: Use radius_cluster() accordinglyAaron LI2019-01-311-2/+2
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* clusters: Minor cleanups (rename 'comp' to 'sec')Aaron LI2019-01-301-19/+19
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* clusters/halo: Add options bolo_freq_{min,max,num}Aaron LI2019-01-291-2/+9
| | | | Update the default bolometric frequency band to: 10 MHz -- 100 GHz.
* clusters/halo: Do not rescale density in _adjust_spectrum()Aaron LI2019-01-281-5/+0
| | | | | | Since there is continuous electron injection, the electron density may keep increasing. Therefore, it's bad to rescale the density to match the beginning value.
* clusters/halo: calc_acc_factor() accepts the fiducial spectrumAaron LI2019-01-281-3/+7
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* clusters/halo: Fix minor errors along the refactoringAaron LI2019-01-271-5/+4
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* clusters/halo: Tweak radius_turb() calculationAaron LI2019-01-271-4/+3
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* clusters/halo: Rewrite is_genuine() to be calc_acc_factor()Aaron LI2019-01-271-16/+10
| | | | | | | Calculate the bolometric emissivity instead of the emissivity at a certain frequency. This should capture the acceleration effect more effectively. In addition, remove the now obsolete config options "fiducial_freq" and "fiducial_factor".
* clusters/halo: Delete the RadioHalo wrapper classAaron LI2019-01-271-92/+0
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* clusters/halo: Implement calc_electron_spectrum() for multiple mergersAaron LI2019-01-271-0/+118
| | | | | | | For a cluster with multiple mergers, each merger has a different turbulence radius, so the accelerated spectrum needs appropriate adjustment to take the (may be significant) variation of turbulence radius into account.
* clusters/halo: Implement radius_turb_eff() methodAaron LI2019-01-271-0/+27
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* clusters/halo: Add 'radius_turb_max' propertyAaron LI2019-01-271-2/+10
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* clusters/halo: Tweak {duration,velocity}_turb()Aaron LI2019-01-261-8/+7
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* clusters/halo: Reimplement the 'radius' propertyAaron LI2019-01-261-6/+11
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* clusters/halo: Reorder radius_{strip,turb}()Aaron LI2019-01-261-35/+35
| | | | | Rename radius_stripping() to radius_strip() and radius_turbulence() to radius_turb().
* clusters/halo: Clean up mass_main() methodAaron LI2019-01-261-12/+3
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* clusters/halo: Rewrite _merger_time() to get the effective mergerAaron LI2019-01-261-8/+24
| | | | | If the acceleration durations of multiple mergers overlap, the one with the largest efficiency (i.e., smallest tau_acc) is chosen.
* clusters/halo: Replace "age" with "t" (time)Aaron LI2019-01-261-31/+31
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* clusters/halo: Fold _merger_idx() into _merger_event()Aaron LI2019-01-261-18/+11
| | | | Update _merger_time() accordingly.
* clusters/halo: Move and rename _velocity_turb() to _velocity_turb()Aaron LI2019-01-261-57/+57
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* clusters/halo: Rename _merger() to _merger_event()Aaron LI2019-01-261-4/+4
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* clusters/halo: Remove *_avg and *_fraction methodsAaron LI2019-01-261-50/+0
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* clusters/halo: Use t_merger for duration_turb() and mach_turb()Aaron LI2019-01-261-4/+6
| | | | Rename mach_turbulence() to mach_turb().
* clusters/halo: Simplify tau_acceleration() methodAaron LI2019-01-261-45/+14
| | | | Move the turbulence activity check into the fp_diffusion() method.
* clusters/halo: Some cleanupsAaron LI2019-01-261-28/+15
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* clusters/halo: Use t_merger to be more explicitAaron LI2019-01-261-13/+25
| | | | | Add _validate_t_merger() method to validate the given time to be an merger time.
* clusters/halo: Rename time_turbulence() to duration_turb()Aaron LI2019-01-261-10/+9
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* clusters/halo: Fold _rho_gas_f() into _velocity_turb()Aaron LI2019-01-251-20/+8
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* clusters/halo: Account for mass scaling in tau_acceleration()Aaron LI2019-01-251-0/+18
| | | | Add configuration option "mass_index" to specify the scaling index.
* clusters/halo: Fold parameter "zeta_ins" into "f_acc"Aaron LI2019-01-251-3/+2
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* clusters/halo: Clean up tau_acceleration() methodAaron LI2019-01-251-14/+13
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* clusters: Assume equipartition between B field and CRAaron LI2019-01-251-1/+1
| | | | | | Equipartition between the magnetic fields and cosmic rays is assumed, i.e., eta_b == x_cr. Therefore remove "extragalactic/clusters/eta_b" configuration option.
* clusters/helper: Do not pass the whole configs to functionsAaron LI2019-01-231-3/+8
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* clusters/halo: Minor cleanupAaron LI2019-01-191-4/+1
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* clusters/halo: Update turbulence velocity dispersion calcuationAaron LI2019-01-181-7/+6
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* clusters/halo: Update time_turbulence() calculationAaron LI2019-01-181-8/+9
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* clusters/helper: Pass beta to helper.radius_stripping()Aaron LI2019-01-181-2/+3
| | | | | * Add 'beta' parameter to radius_stripping() * Pass 'f_rc' and 'beta' to calc_gas_density_profile()
* Minor tweaksAaron LI2019-01-181-2/+3
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* clusters/halo: Update the estimation of radius_turbulence()Aaron LI2019-01-171-4/+8
| | | | | The radius_turbulence is estimated as the stripping radius (r_s) if r_s is larger than the core radius (r_c) of the main cluster, otherwise, r_c.
* clusters/halo: Refactor calc_radius_turb()Aaron LI2019-01-111-14/+37
| | | | | Keep all the calculated properties that can be used to tweak the parameters or to help debug.
* clusters/halo: Implement calc_radius_turb()Aaron LI2019-01-111-0/+36
| | | | | Determine the effective radius of the turbulence region along the whole merging process (i.e., multiple merger events).
* clusters/halo: Add new "RadioHalo" to wrap over RadioHaloAMAaron LI2019-01-101-0/+33
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* clusters/halo: Renamed "RadioHalo" to "RadioHalo1M"Aaron LI2019-01-101-3/+4
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* clusters/halo: Rewrite is_geniune() methodAaron LI2019-01-101-0/+30
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* Bump copyright yearAaron LI2019-01-101-1/+1
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* clusters/halo: Change radius attribute to calc_radius()Aaron LI2019-01-101-20/+1
| | | | Meanwhile remove the angular_radius and volume attributes.
* clusters/halo: Remove is_geniune()Aaron LI2019-01-101-32/+0
| | | | The similar functionality will be implemented in another wrapper class.
* clusters/main: Add _calc_cluster_info()Aaron LI2019-01-101-29/+0
| | | | Move the calculation of Rvir, kT, and B from halo.py to main.py.
* clusters/halo: Set fixed radius for RadioHaloAMAaron LI2018-12-231-2/+14
| | | | | | | Since the halo radius is related to the turbulence injection region size which is further related to the stripping radius, it varies along the cluster growth as mergers happen. Therefore, the finally radio halo radius is determined otherwise and just specified here.
* clusters/halo: Minor tweaksAaron LI2018-12-221-12/+10
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