Axi-Dilaton Gravity in D \geq 4 Dimensional Space-Times with Torsion

H. Cebeci; T. Dereli

arXiv:gr-qc/0406119·gr-qc·November 19, 2010

Axi-Dilaton Gravity in D \geq 4 Dimensional Space-Times with Torsion

H. Cebeci, T. Dereli

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TL;DR

This paper explores axi-dilaton gravity models in higher-dimensional space-times with torsion, analyzing their conformal properties, solutions, and singularity structures in both Riemannian and non-Riemannian frameworks.

Contribution

It introduces static, spherically symmetric solutions in axi-dilaton gravity with torsion and discusses conformal re-scaling in different geometric formulations.

Findings

01

Derived static, spherically symmetric solutions.

02

Analyzed singularity structures of solutions.

03

Compared conformal re-scaling in Riemannian and non-Riemannian geometries.

Abstract

We study models of axi-dilaton gravity in space-time geometries with torsion. We discuss conformal re-scaling rules in both Riemannian and non-Riemannian formulations. We give static, spherically symmetric solutions and examine their singularity structure.

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