import lenstronomy.Util.param_util as param_util
__all__ = ["Hernquist", "HernquistEllipse"]
[docs]class Hernquist(object):
"""Class for pseudo Jaffe lens light (2d projected light/mass distribution."""
[docs] def __init__(self):
from lenstronomy.LensModel.Profiles.hernquist import Hernquist as Hernquist_lens
self.lens = Hernquist_lens()
self.param_names = ["amp", "Rs", "center_x", "center_y"]
self.lower_limit_default = {
"amp": 0,
"Rs": 0,
"center_x": -100,
"center_y": -100,
}
self.upper_limit_default = {
"amp": 100,
"Rs": 100,
"center_x": 100,
"center_y": 100,
}
[docs] def function(self, x, y, amp, Rs, center_x=0, center_y=0):
"""
:param x:
:param y:
:param amp:
:param Rs: scale radius: half-light radius = Rs / 0.551
:param center_x:
:param center_y:
:return:
"""
rho0 = self.lens.sigma2rho(amp, Rs)
return self.lens.density_2d(x, y, rho0, Rs, center_x, center_y)
[docs] def light_3d(self, r, amp, Rs):
"""
:param r:
:param amp:
:param Rs:
:return:
"""
rho0 = self.lens.sigma2rho(amp, Rs)
return self.lens.density(r, rho0, Rs)
[docs]class HernquistEllipse(object):
"""Class for elliptical pseudo Jaffe lens light (2d projected light/mass
distribution."""
param_names = ["amp", "Rs", "e1", "e2", "center_x", "center_y"]
lower_limit_default = {
"amp": 0,
"Rs": 0,
"e1": -0.5,
"e2": -0.5,
"center_x": -100,
"center_y": -100,
}
upper_limit_default = {
"amp": 100,
"Rs": 100,
"e1": 0.5,
"e2": 0.5,
"center_x": 100,
"center_y": 100,
}
[docs] def __init__(self):
from lenstronomy.LensModel.Profiles.hernquist import Hernquist as Hernquist_lens
self.lens = Hernquist_lens()
self.spherical = Hernquist()
[docs] def function(self, x, y, amp, Rs, e1, e2, center_x=0, center_y=0):
"""
:param x:
:param y:
:param amp:
:param Rs:
:param e1:
:param e2:
:param center_x:
:param center_y:
:return:
"""
x_, y_ = param_util.transform_e1e2_product_average(
x, y, e1, e2, center_x, center_y
)
return self.spherical.function(x_, y_, amp, Rs)
[docs] def light_3d(self, r, amp, Rs, e1=0, e2=0):
"""
:param r:
:param amp:
:param Rs:
:param e1:
:param e2:
:return:
"""
rho0 = self.lens.sigma2rho(amp, Rs)
return self.lens.density(r, rho0, Rs)