예제 #1
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    def test_sis_density_deflection(self):
        """
        tests whether the unit conversion between the lensing parameter 'sigma0' and the units in the density profile are ok
        :return:
        """

        from lenstronomy.LensModel.Profiles.sis import SIS as Model
        lensModel = Model()
        theta_E = 1.
        rho0 = lensModel.theta2rho(theta_E)
        kwargs_lens = {'theta_E': theta_E}
        kwargs_density = {'rho0': rho0}
        r = .5
        mass_2d = lensModel.mass_2d(r, **kwargs_density)
        alpha_mass = mass_2d / r
        alpha_r, _ = lensModel.derivatives(r, 0, **kwargs_lens)
        npt.assert_almost_equal(alpha_mass / np.pi, alpha_r, decimal=5)
        lensModel.density_2d(1, 1, rho0=1)
예제 #2
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class PJaffe(object):
    """
    class for pseudo Jaffe lens light (2d projected light/mass distribution)
    """
    param_names = ['amp', 'Ra', 'Rs', 'center_x', 'center_y']
    lower_limit_default = {
        'amp': 0,
        'Ra': 0,
        'Rs': 0,
        'center_x': -100,
        'center_y': -100
    }
    upper_limit_default = {
        'amp': 100,
        'Ra': 100,
        'Rs': 100,
        'center_x': 100,
        'center_y': 100
    }

    def __init__(self):
        from lenstronomy.LensModel.Profiles.p_jaffe import PJaffe as PJaffe_lens
        self.lens = PJaffe_lens()

    def function(self, x, y, amp, Ra, Rs, center_x=0, center_y=0):
        """

        :param x:
        :param y:
        :param amp:
        :param a:
        :param s:
        :param center_x:
        :param center_y:
        :return:
        """
        rho0 = self.lens.sigma2rho(amp, Ra, Rs)
        return self.lens.density_2d(x, y, rho0, Ra, Rs, center_x, center_y)

    def light_3d(self, r, amp, Ra, Rs):
        """

        :param y:
        :param amp:
        :param Rs:
        :param center_x:
        :param center_y:
        :return:
        """
        rho0 = self.lens.sigma2rho(amp, Ra, Rs)
        return self.lens.density(r, rho0, Ra, Rs)
예제 #3
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    def assert_integrals(self, Model, kwargs):
        lensModel = Model()
        int_profile = ProfileIntegrals(lensModel)
        r = 2.

        density2d_num = int_profile.density_2d(r, kwargs)
        density2d = lensModel.density_2d(r, 0, **kwargs)
        npt.assert_almost_equal(density2d / density2d_num, 1., decimal=1)

        mass_2d_num = int_profile.mass_enclosed_2d(r, kwargs)
        mass_2d = lensModel.mass_2d(r, **kwargs)
        npt.assert_almost_equal(mass_2d / mass_2d_num, 1, decimal=1)

        mass_3d_num = int_profile.mass_enclosed_3d(r, kwargs)
        mass_3d = lensModel.mass_3d(r, **kwargs)
        npt.assert_almost_equal(mass_3d / mass_3d_num, 1, decimal=2)