Thermodynamics of the quantum Schwarzschild black hole

Leonardo Balart; Grigoris Panotopoulos; Ángel Rincón

doi:10.1140/epjp/s13360-024-05216-w

2024 Impact factor 2.9

EPJ PLUS - Condensed Matter and Complex Systems

Open Access

Eur. Phys. J. Plus (2024) 139: 416
https://doi.org/10.1140/epjp/s13360-024-05216-w

Regular Article

Thermodynamics of the quantum Schwarzschild black hole

Leonardo Balart¹, Grigoris Panotopoulos¹ and Ángel Rincón²^c

¹ Departamento de Ciencias Físicas, Universidad de la Frontera, Casilla 54-D, 4811186, Temuco, Chile
² Departamento de Física Aplicada, Universidad de Alicante Campus de San Vicente del Raspeig, 03690, Alicante, Spain

^c angel.rincon@ua.es

Received: 12 January 2024
Accepted: 24 April 2024
Published online: 16 May 2024

Abstract

We discuss some thermodynamic properties as well as the stability of a quantum Schwarzschild black hole, comparing the results with those obtained within a bumblebee gravity model. In particular, the Hawking temperature, $T_{H}$ $T_{{\text{H}}}$ , the entropy, S, the heat capacity, C, and the Gibbs free energy, G, are computed for both cases. In addition to that, we compute the Brown-York quasilocal energy and compare the solution with the Schwarzschild case. We find that in both cases (quantum Schwarzschild and bumblebee gravity model) the temperature, the entropy, and the heat capacity show the same functional form, under the replacement $λ^{2} \to ℓ$ $\lambda ^2 \rightarrow \ell$ and vice versa. Specifically, the temperature is found to be lower compared to the classical (Schwarzschild) solution; whereas, the entropy is computed to be larger. Moreover, the heat capacity becomes more negative. Notably, a distinct contrast emerges in obtaining the Gibbs free energy between these two cases, and this distinction appears to stem from the ADM mass.

© The Author(s) 2024

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