Tunneling Under the Influence of Quantum Gravity in Black Rings

Riasat Ali; Kazuharu Bamba; Muhammad Asgher; and Syed Asif Ali Shah

arXiv:2101.07476·gr-qc·January 20, 2021

Tunneling Under the Influence of Quantum Gravity in Black Rings

Riasat Ali, Kazuharu Bamba, Muhammad Asgher, and Syed Asif Ali Shah

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TL;DR

This paper investigates how quantum gravity influences tunneling radiation and stability of black rings using the Hamilton-Jacobi method within Einstein-Maxwell-dilation gravity, highlighting the effects of generalized uncertainty principles.

Contribution

It introduces a novel analysis of black ring tunneling radiation considering quantum gravity effects and the generalized uncertainty principle.

Findings

01

Quantum gravity modifies black ring radiation characteristics.

02

Black ring stability is affected by quantum gravity effects.

03

Tunneling radiation analyzed without back reaction or particle self-interaction.

Abstract

We explore the Lagrangian equation in the background of generalized uncertainty principle. The tunneling radiation through the black ring horizon is observed. We investigated the tunneling radiation through the Hamilton-Jacobi method for solutions of Einstein-Maxwell-dilation gravity theory. The radiation of black ring without back reaction and self interaction of particles are studied. Furthermore, we consider the quantum gravity effect on the stability of black ring.

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