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Main Authors: Santos, Fabiano F., Anand, Ankit
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.18919
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author Santos, Fabiano F.
Anand, Ankit
author_facet Santos, Fabiano F.
Anand, Ankit
contents In this work, we explore the entanglement entropy equipped with the $κ$-algebra. This entanglement entropy is computed through the geometric setup as performed by Hartman-Maldacena, which, in their prescription, finds that the entropy grows linearly in time. In our case, we show that the $κ$-algebra embedding provides a richer scenario where the third-order corrections in time added from $κ$-algebra to entanglement entropy imply that the growth of quantum correlations between subsystems is more intricate than a simple linear increase into the dynamics of black hole thermalization and quantum information flow. In the context of holography, such corrections suggest that the thermalization process is not instantaneous but involves higher-order interactions between subsystems.
format Preprint
id arxiv_https___arxiv_org_abs_2503_18919
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle $κ$-Entanglement Entropy from Black Hole
Santos, Fabiano F.
Anand, Ankit
High Energy Physics - Theory
In this work, we explore the entanglement entropy equipped with the $κ$-algebra. This entanglement entropy is computed through the geometric setup as performed by Hartman-Maldacena, which, in their prescription, finds that the entropy grows linearly in time. In our case, we show that the $κ$-algebra embedding provides a richer scenario where the third-order corrections in time added from $κ$-algebra to entanglement entropy imply that the growth of quantum correlations between subsystems is more intricate than a simple linear increase into the dynamics of black hole thermalization and quantum information flow. In the context of holography, such corrections suggest that the thermalization process is not instantaneous but involves higher-order interactions between subsystems.
title $κ$-Entanglement Entropy from Black Hole
topic High Energy Physics - Theory
url https://arxiv.org/abs/2503.18919