Some Enigmatic Aspects of the Early Universe

C Sivaram (1); Kenath Arun (2); Venkata Manohara Reddy A (1) ((1); Indian Institute of Astrophysics; (2) Christ College)

arXiv:0804.2637·astro-ph·July 4, 2011

Some Enigmatic Aspects of the Early Universe

C Sivaram (1), Kenath Arun (2), Venkata Manohara Reddy A (1) ((1), Indian Institute of Astrophysics; (2) Christ College)

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TL;DR

This paper explores how including mutual gravitational interactions among particles in the early universe can prevent singularities, leading to finite physical quantities like entropy and density, challenging traditional singularity models.

Contribution

It proposes that accounting for mutual gravitational interactions among particles can avoid singularities in the early universe, offering a new perspective on cosmic evolution.

Findings

01

Mutual gravitational interactions can prevent singularities.

02

Finite entropy and density are achievable.

03

Traditional singularity models may be incomplete.

Abstract

Matter collapsing to a singularity in a gravitational field is still an intriguing question. Similar situation arises when discussing the very early universe or a universe recollapsing to a singularity. It is suggested that inclusion of mutual gravitational interactions among the collapsing particles can avert a singularity and give finite value for various physical quantities like entropy, density, etc.

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