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GUP-corrected thermodynamics of accelerating and rotating black holes

Muhammad RizwanDepartment of Mechanical Engineering, International Islamic University, Islamabad, PakistanK. SaifullahDepartment of Mathematics, Quaid-i-Azam University, Islamabad, Pakistan
2017en
ABI

Аннотация

When quantum gravity effects, that are based on generalized uncertainty principle with a minimal measurable length, are incorporated into black hole physics the Klein–Gordon and Dirac equations get modified. Using these modified equations we investigate tunneling of scalar particles and fermions from event and acceleration horizons of accelerating and rotating black holes and obtain the modified Hawking temperature with quantum gravity effects. We see that Hawking temperature depends on black hole parameters as well as the quantum numbers of emitted fermions. The quantum corrections slow down black hole evaporation and leave a black hole remnant. This contradicts complete evaporation of a black hole which is presaged by the standard temperature formula for black holes. The modified Hawking temperatures presented here, in appropriate limits, are consistent with the previous results in the literature.

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