Related papers: Timelike virtual transition in a static atom by a static mirror in Kasner Universe and in future Kruskal-Szekeres region

Timelike virtual transition in a static atom by a static mirror in Kasner Universe and in future Kruskal-Szekeres region

URL: http://arxiv.org/abs/2408.12378v1
Date: Thu, 22 Aug 2024 13:18:22 GMT
Title: Timelike virtual transition in a static atom by a static mirror in Kasner Universe and in future Kruskal-Szekeres region
Authors: Subhajit Barman, Pradeep Kumawat, Bibhas Ranjan Majhi,
Abstract summary: We investigate the timelike transitions in a two-level atom in the presence of an infinite reflecting mirror in the Kasner regions of a Minkowski spacetime. We observe thermal response and its periodic dependence on the separation between the atom and the mirror.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We investigate the timelike transitions in a two-level atom in the presence of an infinite reflecting mirror in the Kasner regions of a Minkowski spacetime as well as region interior of a $(1+1)$ dimensional Schwarzschild black hole. In particular, when considering the Kasner spacetime, two specific scenarios are dealt with -- $(i)$ a static mirror is synchronized with Minkowski time while the static atom is using future Kasner time, $(ii)$ a static atom is using Minkowski time and the mirror is following the future Kasner time. Analogous scenarios in the black hole spacetime are -- the static mirror is using future Kruskal time while the static atom is using Schwarzschild timelike coordinate, defined inside the black hole, as its time, and vice-versa. In all of these scenarios, we observe thermal response and its periodic dependence on the separation between the atom and the mirror. These responses vanish periodically with this separation, which contrasts the scenario of uniform acceleration. We observe that the $(1+1)$ dimensional Minkowski-Kasner responses are the same when the atomic and field frequencies are equal. At the same time, the Schwarzschild-interior and $(3+1)$ dimensional Minkowski-Kasner are unequal for the same atomic and field frequencies. Therefore we feel that the robustness of the symmetry between the two scenarios crucially depends on the dimension as well as the curvature of the spacetime. Although qualitatively, there exist similarities to a certain degree between the responses in the Minkowski-Kasner and Schwarzschild-interior, they also carry crucial differences. We discuss the physical interpretations of these observations.

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