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-rw-r--r--fg21sim/extragalactic/clusters/helper.py33
1 files changed, 29 insertions, 4 deletions
diff --git a/fg21sim/extragalactic/clusters/helper.py b/fg21sim/extragalactic/clusters/helper.py
index 737d05b..d761915 100644
--- a/fg21sim/extragalactic/clusters/helper.py
+++ b/fg21sim/extragalactic/clusters/helper.py
@@ -112,6 +112,33 @@ def calc_gas_density_profile(mass, z, f_rc=0.1, beta=0.8):
return beta_model(rho0, rc, beta)
+def radius_overdensity(mass, overdensity, z=0.0):
+ """
+ Calculate the radius within which the mean density is ``overdensity``
+ times of the cosmological critical density.
+
+ Parameters
+ ----------
+ mass : float, `~numpy.ndarray`
+ Total mass of the cluster
+ Unit: [Msun]
+ overdensity : float
+ The times of density over the cosmological critical density,
+ e.g., 200, 500.
+ z : float, `~numpy.ndarray`, optional
+ Redshift
+ Default: 0.0 (i.e., present day)
+
+ Returns
+ -------
+ radius : float, `~numpy.ndarray`
+ Unit: [kpc]
+ """
+ rho = COSMO.rho_crit(z) # [g/cm^3]
+ r = (3*mass*AUC.Msun2g / (4*np.pi * overdensity * rho))**(1/3) # [cm]
+ return r * AUC.cm2kpc # [kpc]
+
+
def radius_virial(mass, z=0.0):
"""
Calculate the virial radius of a cluster at a given redshift.
@@ -132,9 +159,7 @@ def radius_virial(mass, z=0.0):
Unit: [kpc]
"""
Dc = COSMO.overdensity_virial(z)
- rho = COSMO.rho_crit(z) # [g/cm^3]
- R_vir = (3*mass*AUC.Msun2g / (4*np.pi * Dc * rho))**(1/3) # [cm]
- return R_vir * AUC.cm2kpc # [kpc]
+ return radius_overdensity(mass, overdensity=Dc, z=z)
def radius_stripping(M_main, M_sub, z, f_rc=0.1, beta=0.8):
@@ -385,7 +410,7 @@ def velocity_impact(M_main, M_sub, z=0.0):
----------
Ref.[cassano2005],Eq.(9)
"""
- eta_v = 4 * (1 + M_main/M_sub) ** 0.333333
+ eta_v = 4 * (1 + M_main/M_sub) ** (1/3)
R_vir = radius_virial(M_main, z) * AUC.kpc2cm # [cm]
vi = np.sqrt(2*AC.G * (1-1/eta_v) *
(M_main+M_sub)*AUC.Msun2g / R_vir) # [cm/s]