Non-Parametric Analysis for the Dark Matter Density Evolution

Abstract

In this paper, we investigate a potential departure in the standard dark matter density evolution law, dm = dm,0(1+z)3. The method involves considering a deformed evolution model, denoted as dm = dm,0(1+z)3f(z), and searching the presence of any deviation (f(z)≠ 1). As one may see, f(z) is a general function that parametrizes a possible digression from the standard law. We use data of baryon acoustic oscillations, type I Supernovae luminosity distances, and galaxy cluster gas mass fraction observations to reconstruct f(z) through an approach that is not dependent on the cosmological model or the so-called Gaussian process regression. Unlike previous works, it enables us to investigate a possible deviation without using a specific function to describe it. We have obtained f(z)=1, the standard model scenario, within 2σ c.l. in all the considered cases.