Thermodynamics of Riemannian Kerr-AdS black holes in Poincar\'e gauge   theory

Milutin Blagojevi\'c; Branislav Cvetkovi\'c

arXiv:2103.00330·gr-qc·March 31, 2021

Thermodynamics of Riemannian Kerr-AdS black holes in Poincar\'e gauge theory

Milutin Blagojevi\'c, Branislav Cvetkovi\'c

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TL;DR

This paper investigates the thermodynamics of Kerr-AdS black holes within Poincaré gauge theory, revealing that entropy depends solely on the parity-even sector and confirming the first law of thermodynamics.

Contribution

It introduces a Hamiltonian approach to black hole entropy in Poincaré gauge theory, showing that parity-odd contributions do not affect entropy or charges.

Findings

01

Entropy is proportional to horizon area.

02

Parity-odd sector contributions vanish.

03

First law of thermodynamics is confirmed.

Abstract

A Hamiltonian approach to black hole entropy is used to study Riemannian Kerr-AdS solutions in the general, parity-violating Poincar\'e gauge theory. Entropy and the asymptotic charges are entirely determined by the parity-even sector of the theory, whereas the parity-odd contributions vanish. Entropy is found to be proportional to the horizon area, and the first law of black hole thermodynamics is confirmed.

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