Hawking radiation of charged fermions from accelerating and rotating black holes with generalized uncertainty principle
2019 ◽
Vol 28
(08)
◽
pp. 1950102
Keyword(s):
By considering the quantum gravity effects based on generalized uncertainty principle, we give a correction to Hawking radiation of charged fermions from accelerating and rotating black holes. Using Hamilton–Jacobi approach, we calculate the corrected tunneling probability and the Hawking temperature. The quantum corrected Hawking temperature depends on the black hole parameters as well as quantum number of emitted particles. It is also seen that a remnant is formed during the black hole evaporation. In addition, the corrected temperature is independent of an angle [Formula: see text] which contradicts the claim made in the literature.
2017 ◽
Vol 26
(05)
◽
pp. 1741018
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2018 ◽
Vol 27
(14)
◽
pp. 1847028
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2021 ◽
Vol 36
(03)
◽
pp. 2150028
2019 ◽
Vol 34
(09)
◽
pp. 1950057
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Keyword(s):