Quantum Gravity Evolution of the Kalb–Ramond like black hole

Abstract

In this study, we use the Newman–Janis algorithm to investigate the Kalb–Ramond spacetime solutions and the spin parameter is added by the Newman–Janis algorithm. Firstly, we compute the temperature of Kalb–Ramond like black hole with spin parameter to use a quantum tunneling technique, which is obtained by using the surface gravity. We examine the thermodynamics like Hawking temperature and entropy of a Kalb–Ramond like black hole with first order quantum corrections. We first obtain the corrected Hawking temperature through a semi-classical technique by using the Lagrangian equation in the WKB approximation. Moreover, we examine logarithmic corrected entropy for spinning black hole and graphically analyze the effects of spin, correction and Lorentz parameters on the corrected temperature and logarithmic corrected entropy.