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Black hole entropy arising from massless scalar field with Lorentz violation induced by the coupling to Einstein tensor

arXiv:1511.02004 · doi:10.1016/j.physletb.2015.10.087

Abstract

We have investigated quantum entropy of a static black hole arising from the massless scalar field with Lorentz violation induced by the coupling to Einstein tensor. Our results show that the coupled massless scalar field contributes to the classical Bekenstein-Hawking term in the black hole entropy. The corrected classical Bekenstein-Hawking entropy is not one quarter of the event horizon area of the original background black hole, but of a corresponding effective metric related to the coupling. It means that the classical Bekenstein-Hawking entropy depends not only on the black hole parameter, but also on the coupling which reduces Lorentz violation.

5 pages, no figure. Accepted by PLB for publication