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Quantum-Gravitational Trans-Planckian Energy of a Time-Dependent Black Hole
Version 1
: Received: 11 September 2019 / Approved: 12 September 2019 / Online: 12 September 2019 (15:45:29 CEST)
A peer-reviewed article of this Preprint also exists.
Nurmagambetov, A.J.; Park, I.Y. Quantum-Gravitational Trans-Planckian Energy of a Time-Dependent Black Hole. Symmetry 2019, 11, 1303. Nurmagambetov, A.J.; Park, I.Y. Quantum-Gravitational Trans-Planckian Energy of a Time-Dependent Black Hole. Symmetry 2019, 11, 1303.
Abstract
We continue our recent endeavor in which a time-dependent black hole solution of a one-loop quantum-corrected Einstein-scalar system was obtained and its near-horizon behavior was analyzed. The energy analysis led to a trans-Planckian scaling behavior near the event horizon. In the present work the analysis is extended to a rotating black hole solution of an Einstein-Maxwell-scalar system with a Higgs potential. Although the analysis becomes much more complex compared to that of the previous, we observe the same basic features, including the quantum-gravitational trans-Planckian energy near the horizon.
Keywords
quantum gravity; loop effects; Firewall; trans-Planckian energy
Subject
Physical Sciences, Particle and Field Physics
Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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