- class SersicCoreSph[source]#
The elliptical cored-Sersic light profile.
float]) – The (y,x) arc-second coordinates of the profile centre.
float) – The circular radius containing half the light of this profile.
float) – Controls the concentration of the profile (lower -> less concentrated, higher -> more concentrated).
float) – The break radius separating the inner power-law (with logarithmic slope gamma) and outer Sersic function.
float) – The intensity at the break radius.
float) – The logarithmic power-law slope of the inner core profiles
float) – Controls the sharpness of the transition between the inner core / outer Sersic profiles.
The angle between each angle theta on the grid and the profile, in radians.
Evaluate the light object's 2D image from a input 2D grid of coordinates and convolve it with a PSF.
A dictionary representation of the instance comprising a type field which contains the entire class path by which the type can be imported and constructor arguments.
Convert a grid of (y,x) coordinates to an eccentric radius: :math: axis_ratio^0.5 (x^2 + (y^2/q))^0.5
Convert a grid of (y,x) coordinates to their elliptical radii values: :math: (x^2 + (y^2/q))^0.5
Instantiate an instance of a class from its dictionary representation.
Load the dictable object to a .json file, whereby all attributes are converted from the .json file's dictionary representation to create the instance of the object
Does this instance have an attribute which is of type cls?
Returns the light profile's 1D image from a grid of Cartesian coordinates, which may have been transformed using the light profile's geometry.
Returns the Sersic light profile's 2D image from a 2D grid of Cartesian (y,x) coordinates.
Returns the 2D image of the Sersic light profile from a grid of coordinates which are the radial distances of each coordinate from the its centre.
Routine to integrate the luminosity of an elliptical light profile.
Integrate the light profile to compute the total luminosity within a circle of specified radius.
Output the dictable object to a .json file, whereby all attributes are converted to a dictionary representation first.
Evaluate the light object's 2D image from a input 2D grid of padded coordinates, where this padding is sufficient to encapsulate all surrounding pixels that will blur light into the original image given the 2D shape of the PSF's kernel.
Convert a grid of (y, x) coordinates, to their radial distances from the profile centre (e.g.
Rotate a grid of (y,x) coordinates which have been transformed to the elliptical reference frame of a profile back to the original unrotated coordinate grid reference frame.
Transform a grid of (y,x) coordinates from the reference frame of the profile to the original observer reference frame.
Transform a grid of (y,x) coordinates to the reference frame of the profile.
Evaluate the light object's 2D image from a input 2D grid of coordinates and convolve it with a PSF, using a grid which is not masked.
Evaluate the light object's 2D image from a input 2D grid of coordinates and transform this to an array of visibilities using a autoarray.operators.transformer.Transformer object and therefore a Fourier Transform.
The position angle in degrees of the major-axis of the ellipse defined by profile, defined counter clockwise from the positive x-axis (0.0 > angle > 180.0).
The position angle in radians of the major-axis of the ellipse defined by profile, defined counter clockwise from the positive x-axis (0.0 > angle > 2pi).
The ratio of the minor-axis to major-axis (b/a) of the ellipse defined by profile (0.0 > q > 1.0).
The effective_radius of a Sersic light profile is defined as the circular effective radius, which is the radius within which a circular aperture contains half the profile's total integrated light.
Overall intensity normalisation in the rescaled cored Sersic light profile.
A parameter derived from Sersic index which ensures that effective radius contains 50% of the profile's total integrated light.