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Main Authors: Zhang, Aonan, Wang, Qiang, Xiao, Yong
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.00771
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author Zhang, Aonan
Wang, Qiang
Xiao, Yong
author_facet Zhang, Aonan
Wang, Qiang
Xiao, Yong
contents When higher-derivative terms are added to a gravitational action, black hole solutions and their thermodynamic properties are generally corrected. Recent progress has shown that, by treating higher-derivative operators as perturbations, the first-order corrections to black hole thermodynamics can be obtained without explicit knowledge of the corresponding perturbed black hole solutions. This result can be understood as a consequence of an extremalization principle underlying the Euclidean action formulation of black hole thermodynamics. In this work, we emphasize that this extremalization approach is not restricted to perturbations around Einstein gravity. Instead, it can be applied to perturbations of more general higher-derivative gravity theories whose black hole solutions are already known and can be taken as the zeroth-order background. As an explicit illustration, we consider Einstein--Gauss--Bonnet gravity as the zeroth-order theory and study the first-order thermodynamic corrections induced by further higher-order curvature operators. We show that these corrections can be derived without solving the perturbed black hole solutions, both in asymptotically flat and asymptotically AdS spacetimes.
format Preprint
id arxiv_https___arxiv_org_abs_2601_00771
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Extremalization approach to black hole thermodynamics: perturbations around higher-derivative gravities
Zhang, Aonan
Wang, Qiang
Xiao, Yong
General Relativity and Quantum Cosmology
When higher-derivative terms are added to a gravitational action, black hole solutions and their thermodynamic properties are generally corrected. Recent progress has shown that, by treating higher-derivative operators as perturbations, the first-order corrections to black hole thermodynamics can be obtained without explicit knowledge of the corresponding perturbed black hole solutions. This result can be understood as a consequence of an extremalization principle underlying the Euclidean action formulation of black hole thermodynamics. In this work, we emphasize that this extremalization approach is not restricted to perturbations around Einstein gravity. Instead, it can be applied to perturbations of more general higher-derivative gravity theories whose black hole solutions are already known and can be taken as the zeroth-order background. As an explicit illustration, we consider Einstein--Gauss--Bonnet gravity as the zeroth-order theory and study the first-order thermodynamic corrections induced by further higher-order curvature operators. We show that these corrections can be derived without solving the perturbed black hole solutions, both in asymptotically flat and asymptotically AdS spacetimes.
title Extremalization approach to black hole thermodynamics: perturbations around higher-derivative gravities
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2601.00771