Quantum correlation of Hawking radiations for mass-superposed BTZ black holes

• URL: http://arxiv.org/abs/2406.17327v2
• Date: Sun, 7 Jul 2024 15:59:22 GMT
• Title: Quantum correlation of Hawking radiations for mass-superposed BTZ black holes
• Authors: Hongbin Zhang, Baocheng Zhang,
• Abstract summary: Recent studies using the Unruh-DeWitt detector model have revealed the quantum signatures of black hole mass superposition. In this paper, we use the equal-time density-density correlation function to reinvestigate the mass superposition of BTZ black holes.
• Score: 0.7918886297003019
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Recent studies using the Unruh-DeWitt detector model have revealed the quantum signatures of black hole mass superposition. In this paper, we use the equal-time density-density correlation function to reinvestigate the mass superposition of BTZ black holes. Interestingly, the quantum signatures of BTZ black hole mass superposition can be revealed by the equal-time density-density correlation peaks. Additionally, different mass superpositions for the same mass ratio can be distinguished, a phenomenon not previously documented. Specifically, the correlation function method can pinpoint the location where Hawking radiations are generated, even for mass-superposed BTZ black holes. Our findings indicate that this location is approximately at two and a half times the radius of the horizon, where the correlation function reaches its maximum.This supports the concept of a quantum atmosphere as the origin locus of Hawking radiation,even in quantum-superposed spacetimes.

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