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Quantum-corrected finite entropy of noncommutative acoustic black holes

In this paper we consider the generalized uncertainty principle in the tunneling formalism via Hamilton-Jacobi method to determine the quantum-corrected Hawking temperature and entropy for 2+1-dimensional noncommutative acoustic black holes. In our results we obtain an area entropy, a correction logarithmic in leading order, a correction term in subleading order proportional to the radiation temperature associated with the noncommutative acoustic black holes and an extra term that depends on a conserved charge. Thus, as in the gravitational case, there is no need to introduce the ultraviolet cut-off and divergences are eliminated.

preprint2015arXivOpen access
M. A. AnacletoF. A. BritoG. C. LunaE. PassosJ. Spinelly
gr-qchep-th
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M. A. AnacletoF. A. BritoG. C. LunaE. PassosJ. Spinelly

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