Black-hole evaporation, cosmic censorship, and a quantum lower bound on the Bekenstein-Hawking temperature
Abstract
The semi-classical Hawking evaporation process of Reissner-Nordstr\"om black holes is analyzed. It is shown that this quantum mechanism may turn a near-extremal black-hole spacetime with TBH 2/G2M3 into an horizonless naked singularity, thus violating the Penrose cosmic censorship conjecture. It is therefore conjectured that, within the framework of a self-consistent quantum theory of gravity, the Bekenstein-Hawking temperature should be bounded from below by the simple relation TBH 2/G2M3.
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