BTZ dilatonic black holes coupled to Maxwell and Born-Infeld   electrodynamics

Seyed Hossein Hendi; Behzad Eslam Panah; Shahram Panahiyan; Mokhtar; Hassaine

arXiv:1712.04328·physics.gen-ph·October 10, 2018

BTZ dilatonic black holes coupled to Maxwell and Born-Infeld electrodynamics

Seyed Hossein Hendi, Behzad Eslam Panah, Shahram Panahiyan, Mokhtar, Hassaine

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TL;DR

This paper investigates BTZ black holes incorporating dilaton fields and nonlinear electrodynamics, revealing new thermodynamic properties and the potential to control dilatonic effects through Born-Infeld modifications.

Contribution

It introduces a combined analysis of dilatonic gravity and Born-Infeld electrodynamics in BTZ black holes, highlighting novel thermodynamic behaviors and tunable effects.

Findings

01

Dilatonic gravity alters black hole thermodynamics.

02

Born-Infeld parameters can modulate dilatonic effects.

03

New thermodynamic properties are identified.

Abstract

Motivated by string theory corrections of dilatonic gravity and Born-Infeld nonlinear electromagnetic field, we consider the BTZ black holes with these two generalizations. It will be shown that the generalization to dilatonic gravity introduces novel properties into thermodynamics of the black holes which were absent in the purely gravity case. Furthermore, the possibility of tuning out part of the dilatonic effects is explored in the Born-Infeld generalization.

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