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Main Authors: Ghaffari, S., Luciano, G. G., Sheykhi, A.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.13407
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author Ghaffari, S.
Luciano, G. G.
Sheykhi, A.
author_facet Ghaffari, S.
Luciano, G. G.
Sheykhi, A.
contents Taking the nonextensive Tsallis and Rényi entropies into account, we explore thermodynamic properties and phase transitions of the Kerr-Newman black holes (KNBH) in the microcanonical and canonical ensembles. We also compare our results with those obtained by attributing the Bekenstein-Hawking entropy bound to the mentioned black holes. Our analysis indicates that, similarly to the standard Boltzmann picture, isolated KNBH in the microcanonical approach are stable against axisymmetric perturbations in both Tsallis and Rényi models. On the other hand, in considering the case when the black holes are enveloped by a bath of thermal radiation in the canonical treatment, the KNBH based on the Tsallis and Rényi entropies can be stable for some values of the entropy parameters, in contrast to the traditional Boltzmann framework. For the case of Rényi entropy, we find that a Hawking-Page transition and a first order small black hole/large black hole transition can occur in a similar fashion as in rotating black holes in an anti-de Sitter space. Finally, we employ the Ruppeneir geometrothermodynamic technique to provide a new perspective on studying the nature of interactions between black hole microstructures, revealing a non-trivial impact of nonextensive entropies.
format Preprint
id arxiv_https___arxiv_org_abs_2312_13407
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Nonextensive entropies impact onto thermodynamics and phase structure of Kerr-Newman black holes
Ghaffari, S.
Luciano, G. G.
Sheykhi, A.
High Energy Physics - Theory
General Relativity and Quantum Cosmology
83C57
Taking the nonextensive Tsallis and Rényi entropies into account, we explore thermodynamic properties and phase transitions of the Kerr-Newman black holes (KNBH) in the microcanonical and canonical ensembles. We also compare our results with those obtained by attributing the Bekenstein-Hawking entropy bound to the mentioned black holes. Our analysis indicates that, similarly to the standard Boltzmann picture, isolated KNBH in the microcanonical approach are stable against axisymmetric perturbations in both Tsallis and Rényi models. On the other hand, in considering the case when the black holes are enveloped by a bath of thermal radiation in the canonical treatment, the KNBH based on the Tsallis and Rényi entropies can be stable for some values of the entropy parameters, in contrast to the traditional Boltzmann framework. For the case of Rényi entropy, we find that a Hawking-Page transition and a first order small black hole/large black hole transition can occur in a similar fashion as in rotating black holes in an anti-de Sitter space. Finally, we employ the Ruppeneir geometrothermodynamic technique to provide a new perspective on studying the nature of interactions between black hole microstructures, revealing a non-trivial impact of nonextensive entropies.
title Nonextensive entropies impact onto thermodynamics and phase structure of Kerr-Newman black holes
topic High Energy Physics - Theory
General Relativity and Quantum Cosmology
83C57
url https://arxiv.org/abs/2312.13407