Kerr-Newman black hole surrounded by quintessence under quantum gravity effects and gravity's rainbow

TL;DR

This paper studies quantum gravity effects on Kerr-Newman black holes with quintessence, analyzing Hawking radiation corrections, and explores how gravity's rainbow modifies thermodynamic properties, revealing dependencies on quantum and quintessence parameters.

Contribution

It introduces quantum gravity corrections to Hawking temperature for Kerr-Newman black holes with quintessence and incorporates gravity's rainbow effects into their thermodynamics.

Findings

Quantum gravity modifies Hawking temperature depending on particle quantum numbers.

Gravity's rainbow influences black hole thermodynamics and entropy.

Hawking temperature and heat capacity are affected by quintessence and rainbow functions.

Abstract

In this paper, we investigate the quantum gravity effects on the tunneling of particles and gravity's rainbow across the event horizon of Kerr-Newman black hole (KNBH) surrounded by the quintessence. The aspect of quantum gravity has been introduced by applying the Generalized Uncertainty Principle (GUP) to the Klein-Gordon equation and the Dirac equation of scalar and fermion particles. By solving the Generalized Klein-Gordon and Dirac equations obeyed by scalar and fermion particles, corrections to the Hawking temperature of the KNBH in the presence of quintessence is discussed. The tunneling of fermions is also examined using the modified Hamilton-Jacobi equation also known as modified Rarita-Schwinger equation, and the corrected Hawking temperature is determined. The corrected Hawking temperature of the KNBH surrounded by quintessence is found to be dependent not only on the properties of the black hole but also on the quantum numbers of the emitted particles and quintessence. Then, we explored the KNBH surrounded by quintessence within the framework of gravity rainbow using rainbow functions. In the context of rainbow functions in loop quantum gravity, we derive the Hawking temperature, heat capacity, equation of state parameters, and entropy for the KNBH surrounded by quintessence. It is found that these quantities are influenced by both the quintessence and the rainbow gravity.