Evolution of the density contrast in inhomogeneous dust models

TL;DR

This paper investigates how density contrast indicators evolve over time in inhomogeneous dust cosmological models, revealing conditions for monotonic growth and implications for structure formation and gravitational entropy.

Contribution

It provides a comparative analysis of local and global density contrast indicators in Lemaitre--Tolman and Szekeres models, highlighting their asymptotic behaviors and conditions for monotonic evolution.

Findings

Monotonically increasing indicators are more common in ever-expanding models.

In the absence of decaying modes, indicators grow monotonically in both model types.

Different indicators suggest various notions of asymptotic homogenization.

Abstract

With the help of families of density contrast indicators, we study the tendency of gravitational systems to become increasingly lumpy with time. Depending upon their domain of definition, these indicators could be local or global. We make a comparative study of these indicators in the context of inhomogeneous cosmological models of Lemaitre--Tolman and Szekeres. In particular, we look at the temporal asymptotic behaviour of these indicators and ask under what conditions, and for which class of models, they evolve monotonically in time. We find that for the case of ever-expanding models, there is a larger class of indicators that grow monotonically with time, whereas the corresponding class for the recollapsing models is more restricted. Nevertheless, in the absence of decaying modes, indicators exist which grow monotonically with time for both ever-expanding and recollapsing models simultaneously. On the other hand, no such indicators may found which grow monotonically if the decaying modes are allowed to exist. We also find the conditions for these indicators to be non-divergent at the initial singularity in both models. Our results can be of potential relevance for understanding structure formation in inhomogeneous settings and in debates regarding gravitational entropy and arrow of time. In particular, the spatial dependence of turning points in inhomogeneous cosmologies may result in multiple density contrast arrows in recollapsing models over certain epochs. We also find that different notions of asymptotic homogenisation may be deduced, depending upon the density contrast indicators used.