Related papers: Probing hidden topology with quantum detectors

Probing hidden topology with quantum detectors

URL: http://arxiv.org/abs/2410.13993v1
Date: Thu, 17 Oct 2024 19:49:19 GMT
Title: Probing hidden topology with quantum detectors
Authors: Dyuman Bhattacharya, Jorma Louko, Robert B. Mann,
Abstract summary: We consider the transition rate of a static Unruh-DeWitt detector in two $ (2+1)$-dimensional black hole spacetimes. We show numerically that the detector's transition rate distinguishes the two spacetimes, particularly at late exterior times.
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Abstract: We consider the transition rate of a static Unruh-DeWitt detector in two $(2+1)$-dimensional black hole spacetimes that are isometric to the static Ba\~nados-Teitelboim-Zanelli black hole outside the horizon but have no asymptotically locally anti-de Sitter exterior behind the horizon. The spacetimes are the $\mathbb{R}\text{P}^{2}$ geon, with spatial topology $\mathbb{R}\text{P}^{2}\setminus\{\text{point at infinity}\}$, and the Swedish geon of \AA{}minneborg et al, with spatial topology $T^{2}\setminus\{\text{point at infinity}\}$. For a conformal scalar field, prepared in the Hartle-Hawking-type state that is induced from the global vacuum on the anti-de Sitter covering space, we show numerically that the detector's transition rate distinguishes the two spacetimes, particularly at late exterior times, and we trace this phenomenon to the differences in the isometries that are broken by the quotient construction from the universal covering space. Our results provide an example in which information about the interior topology of a black hole is accessible to a quantum observer outside the black hole.

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