Quantum corrected thermodynamics of nonlinearly charged BTZ black holes in massive gravity’s rainbow
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In this paper, we consider three-dimensional massive gravity’s rainbow and obtain black hole solutions in three different cases of Born–Infeld, logarithmic, and exponential theories of nonlinear electrodynamics. We discuss the horizon structure and geometrical properties. Then, we study thermodynamics of these models by considering the first-order quantum correction effects, which appear as a logarithmic term in the black hole entropy. We discuss such effects on the black hole stability and phase transitions. We find that due to the quantum corrections, the second-order phase transition happens in Born–Infeld and logarithmic models. We obtain the modified first law of black hole thermodynamics in the presence of logarithmic corrections.
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2017 ◽
Vol 942
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pp. 012011
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2019 ◽
Vol 28
(08)
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pp. 1950109
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2008 ◽
Vol 40
(9)
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pp. 1899-1911
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2016 ◽
Vol 2016
(10)
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pp. 103A02
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Keyword(s):
2019 ◽
Vol 28
(12)
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pp. 1950160
2012 ◽
Vol 44
(8)
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pp. 1947-1991
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