Thermodynamics and Holography of Three-dimensional Accelerating black   holes

Jia Tian; Tengzhou Lai

arXiv:2312.13718·hep-th·January 10, 2024·1 cites

Thermodynamics and Holography of Three-dimensional Accelerating black holes

Jia Tian, Tengzhou Lai

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TL;DR

This paper explores the thermodynamics and holographic properties of three-dimensional accelerating black holes, identifying multiple mass definitions and discussing the role of boundary entropy within a Chern-Simons framework.

Contribution

It introduces a novel analysis of 3D accelerating black holes using Chern-Simons formalism, revealing multiple mass definitions and clarifying boundary entropy contributions.

Findings

01

Identification of two distinct masses with associated first laws

02

Inclusion or exclusion of boundary entropy in black hole entropy

03

Embedding solutions in Chern-Simons formalism

Abstract

We address the problem of describing the thermodynamics and holography of three-dimensional accelerating black holes. By embedding the solutions in the Chern-Simons formalism, we identify two distinct masses, each with its associated first law of thermodynamics. We also show that a boundary entropy should be included (or excluded) in the black hole entropy.

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Taxonomy

TopicsBlack Holes and Theoretical Physics · Cosmology and Gravitation Theories · Relativity and Gravitational Theory