Thermodynamics of the Kerr-AdS black hole from an ensemble-averaged theory

Peng Cheng; Jindong Pan; Haichen Xu; Si-Jiang Yang

doi:10.1140/epjc/s10052-025-14155-4

2024 Impact factor 4.8

Particles and Fields

Open Access

Eur. Phys. J. C (2025) 85: 423
https://doi.org/10.1140/epjc/s10052-025-14155-4

Regular Article - Theoretical Physics

Thermodynamics of the Kerr-AdS black hole from an ensemble-averaged theory

Peng Cheng¹, Jindong Pan², Haichen Xu² and Si-Jiang Yang³^a

¹ Center for Joint Quantum Studies and Department of Physics, School of Science, Tianjin University, 300350, Tianjin, China
² Institute for Theoretical Physics, University of Amsterdam, 1090 GL, Amsterdam, The Netherlands
³ Lanzhou Center for Theoretical Physics, Key Laboratory of Theoretical Physics of Gansu Province, and Key Laboratory of Quantum Theory and Applications of MoE, Lanzhou University, 730000, Lanzhou, Gansu, China

^a yangsj@lzu.edu.cn

Received: 15 March 2025
Accepted: 1 April 2025
Published online: 16 April 2025

Abstract

Exploring the universal structure of the gravitational path integral beyond semi-classical saddles and uncovering a compelling statistical interpretation of black hole thermodynamics have long been significant challenges. We investigate the statistical interpretation of the Kerr-AdS black hole thermodynamics through an ensemble-averaged theory. By extending the phase space to include all possible states with conical singularities in their Euclidean counterparts, we derive the probability distribution of different states inherited from the Euclidean gravitational path integral. Moreover, we can define a density matrix of all states in the phase space. By ensemble-averaging over all states, we show that the black hole phase transition naturally arises in the semi-classical limit. Away from the semi-classical regime, the ensemble-averaged theory exhibits a notable deviation from the conventional phase transition. Expanding around the classical saddles yields the subleading-order correction to the Gibbs free energy, which is half of the Hawking temperature. We demonstrate that the half Hawking temperature correction is a universal feature inherent to black holes in asymptotically AdS spacetime. With the subleading-order correction to Gibbs free energy, we also suggest that the whole black hole thermodynamic should be corrected accordingly.

© The Author(s) 2025

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