Quantum Corrections for a Braneworld Black Hole

Mubasher Jamil; Farhad Darabi

arXiv:1102.4938·gr-qc·June 30, 2011

Quantum Corrections for a Braneworld Black Hole

Mubasher Jamil, Farhad Darabi

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TL;DR

This paper investigates quantum corrections to black hole thermodynamics in a braneworld scenario using tunneling methods, refining our understanding of black hole entropy and temperature beyond classical approximations.

Contribution

It introduces quantum tunneling techniques to compute corrections to Hawking temperature and entropy for braneworld black holes, advancing semiclassical analysis.

Findings

01

Quantum corrections modify Hawking temperature and entropy.

02

Entropy-area relation receives significant quantum adjustments.

03

Results enhance understanding of black hole thermodynamics in higher-dimensional models.

Abstract

By using the quantum tunneling approach over semiclassical approximations, we study the quantum corrections to the Hawking temperature, entropy and Bekenstein-Hawking entropy-area relation for a black hole lying on a brane.

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