A singularity free classical theory of gravity

Saurya Das; Mitja Fridman (U Lethbridge); Sourav Sur (U Delhi)

arXiv:2412.00282·gr-qc·February 19, 2025

A singularity free classical theory of gravity

Saurya Das, Mitja Fridman (U Lethbridge), Sourav Sur (U Delhi)

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TL;DR

This paper introduces a classical gravity theory that avoids singularities at short distances while aligning with General Relativity at larger scales, offering a new perspective on gravitational physics.

Contribution

It proposes a novel singularity-free classical gravity model that matches General Relativity at large distances, addressing fundamental issues in gravitational theory.

Findings

01

The theory is free of singularities at short distances.

02

It converges to General Relativity at large scales.

03

Implications for gravitational physics are discussed.

Abstract

We present a classical theory of gravity, which is singularity free at short distances and reduces to General Relativity at large distances. We discuss its implications.

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Taxonomy

TopicsCosmology and Gravitation Theories · Relativity and Gravitational Theory · Black Holes and Theoretical Physics