Black holes in the Einstein -Gauss-Bonnet theory and the geometry of   their thermodynamics-II

Ritabrata Biswas; Subenoy Chakraborty

arXiv:0905.1801·gr-qc·February 11, 2010

Black holes in the Einstein -Gauss-Bonnet theory and the geometry of their thermodynamics-II

Ritabrata Biswas, Subenoy Chakraborty

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TL;DR

This paper explores the thermodynamic geometry of charged and Yang-Mills black holes within Einstein-Gauss-Bonnet theory, focusing on how modified entropy influences their thermodynamic properties.

Contribution

It investigates the thermodynamic geometry of EMGB and EGB-Yang-Mills black holes using modified entropy, extending previous analyses to include charge and gauge fields.

Findings

01

Thermodynamic geometry reveals stability regions for black holes.

02

Modified entropy significantly affects thermodynamic behavior.

03

Insights into phase transitions in Gauss-Bonnet black holes.

Abstract

In the present work we study (i) charged black hole in Einstein-Gauss-Bonnet (EGB) theory, known as Einstein-Maxwell-Gauss-Bonnet (EMGB) black hole and (ii) black hole in EGB gravity with Yang-Mills field. The thermodynamic geometry of these two black hole solutions has been investigated, using the modified entropy in Gauss-Bonnet theory.

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