FromArray¶

class hmf.cosmology.growth_factor.FromArray(cosmo: FLRW, **model_parameters)[source]¶

Use a spline over a given array to define the growth factor.

Parameters:

**model_parameters (unpack-dict) –

Parameters specific to this model. In this case, available parameters are the following. To see their default values, check the _defaults class attribute.

z:: array Redshifts
d:: array The growth factor at z.

Attributes

Methods

__init__(cosmo: FLRW, **model_parameters)

dlne_dlna(z)

Compute the derivative of ln(E(a)) with respect to ln(a).

This is useful for the growth factor, which has terms \(E'(a)/E(a) \equiv (1/a)*dlnE/dlna\) in its definition.

This implementation simply uses the exact definition from astropy of E(a) and writes down the derivative analytically.

classmethod get_models() → dict[str, type]: Get a dictionary of all implemented models for this component.

growth_factor(z)

Compute the normalized growth factor, \(D(a) = D^+(a)/D^+(a=1)\).

Parameters:: z (array_like) – Redshift.
Returns:: gf – The growth factor at z.
Return type:: array_like

growth_rate(z) → float | ndarray

Compute the growth rate, \(f(a) = d\ln D^+ / d\ln a\).

Parameters:: z (array_like) – Redshift.
Returns:: gr – The growth rate at z.
Return type:: array_like

radiation_density(z): The fractional radiation density as a function of redshift.