Stability Analysis of Charged Rotating Black Ring

TL;DR

This paper investigates the stability, radiation, and quantum effects of charged rotating black rings, analyzing boson tunneling, temperature dependence, and stability criteria using the WKB approximation and quantum gravity considerations.

Contribution

It introduces a detailed analysis of boson tunneling and temperature corrections for charged rotating black rings, incorporating quantum gravity effects and stability assessment.

Findings

Radiation from CRBR can be computed neglecting back reaction.

Temperature depends on quantum gravity and CRBR geometry.

Graphical analysis indicates stability and instability regions.

Abstract

We study the electromagnetic field equation along with the WKB approximation. The boson tunneling phenomenon from charged rotating black ring(CRBR) is analyzed. It is examined that reserve radiation consistent with CRBR can be computed in general by neglecting back reaction and self-gravitational of the radiated boson particle. The calculated temperature depends upon quantum gravity and CRBR geometry. We also examine the corrected tunneling rate/probability of boson particles by assuming charge as well as energy conservation laws and the quantum gravity. Furthermore, we study the graphical behavior of the temperature and check the stability and instability of CRBR.