Abstract
Abstract
This paper studies the holographic description of 2 + 1-dimensional accelerating black holes. We start by using an ADM decomposition of the coordinates suitable to identify boundary data. As a consequence, the holographic CFT lies in a fixed curved background which is described by the holographic stress tensor of a perfect fluid. We compute the Euclidean action ensuring that the variational principle is satisfied in the presence of the domain wall. This requires including the Gibbons-Hawking-York term associated with internal boundaries on top of the standard renormalised AdS3 action. Finally, we compute the entanglement entropy by firstly mapping the solution to the Rindler-AdS spacetime in which the Ryu-Takayanagi surface is easily identifiable. We found that as the acceleration increases the accessible region of the conformal boundary decreases and also the entanglement entropy, indicating a loss of information in the dual theory due to acceleration.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference75 articles.
1. T. Levi-Civita, ds2 einsteiniani in campi newtoniani. Part I, Rend. Accad. Lincei 27 (1918) 220.
2. H. Weyl, Bemerkung über die statischen kugelsymmetrischen Lösungen von Einsteins “kosmologischen” Gravitationsgleichungen, Phys. Z. 20 (1919) 31.
3. W. Kinnersley and M. Walker, Uniformly accelerating charged mass in general relativity, Phys. Rev. D 2 (1970) 1359 [INSPIRE].
4. W.B. Bonnor, The sources of the vacuum C-metric, Gen. Rel. Grav. 15 (1983) 535.
5. P.S. Letelier and S.R. Oliveira, On uniformly accelerated black holes, Phys. Rev. D 64 (2001) 064005 [gr-qc/9809089] [INSPIRE].
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