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Autores principales: Liu, Yipeng, Xu, Wei, Zhang, Baocheng
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2510.17528
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author Liu, Yipeng
Xu, Wei
Zhang, Baocheng
author_facet Liu, Yipeng
Xu, Wei
Zhang, Baocheng
contents We employ the island rule to investigate the radiation entropy of asymptotically AdS black holes in the framework of f(Q) gravity. Through an analysis based on the Euclidean action, we find that the area term of the generalized entropy must be modified, which in turn leads to a modification of the island rule itself. Using the corrected rule to compute the radiation entropy for the eternal asymptotically AdS black hole reveals that, the result diverges as the cutoff surface is moved outward, indicating the breakdown of the s-wave approximation. For a collapsing asymptotically AdS black hole, the radiation entropy is dominated by the area term, with a logarithmic correction proportional to the area, which is consistent with the predictions of quantum gravity theories. Furthermore, both the radiation entropy and the Page time are ultimately influenced by the choice of the f(Q) model, implying that information regarding the underlying gravitational model is encoded in the final radiation entropy.
format Preprint
id arxiv_https___arxiv_org_abs_2510_17528
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Radiation Entropy in asymptotically AdS Black Holes within f(Q) Gravity
Liu, Yipeng
Xu, Wei
Zhang, Baocheng
High Energy Physics - Theory
We employ the island rule to investigate the radiation entropy of asymptotically AdS black holes in the framework of f(Q) gravity. Through an analysis based on the Euclidean action, we find that the area term of the generalized entropy must be modified, which in turn leads to a modification of the island rule itself. Using the corrected rule to compute the radiation entropy for the eternal asymptotically AdS black hole reveals that, the result diverges as the cutoff surface is moved outward, indicating the breakdown of the s-wave approximation. For a collapsing asymptotically AdS black hole, the radiation entropy is dominated by the area term, with a logarithmic correction proportional to the area, which is consistent with the predictions of quantum gravity theories. Furthermore, both the radiation entropy and the Page time are ultimately influenced by the choice of the f(Q) model, implying that information regarding the underlying gravitational model is encoded in the final radiation entropy.
title Radiation Entropy in asymptotically AdS Black Holes within f(Q) Gravity
topic High Energy Physics - Theory
url https://arxiv.org/abs/2510.17528