2022
DOI: 10.48550/arxiv.2203.07914
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Scrambling time for analogue black holes embedded in AdS space

Qing-Bing Wang,
Ming-Hui Yu,
Xian-Hui Ge

Abstract: We propose a gedanken experiment on realizing thermofield double state (TFD) by using analog black holes and provide an approach to test the scrambling time. Through this approach, we demonstrate clearly how shock wave changes the TFD state as time evolves. As the whole system evolves forward in time, the perturbation of spacetime geometry will increase exponentially. Finally, it will destroy the entanglement between the two states of the thermal field, and the mutual information between them is reduced to zer… Show more

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Cited by 2 publications
(2 citation statements)
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“…In the last line, we assume that b has the order O(r + ) and the acceleration is not large (α ≪ 1 r + ). This result follows the conclusion of the initial Hayden-Preskill experiment [87,88]. Then, the scrambling time as a function of the acceleration α and the charge Q is plotted in Figure .6.…”
Section: Page Curve and Scrambling Timesupporting
confidence: 82%
“…In the last line, we assume that b has the order O(r + ) and the acceleration is not large (α ≪ 1 r + ). This result follows the conclusion of the initial Hayden-Preskill experiment [87,88]. Then, the scrambling time as a function of the acceleration α and the charge Q is plotted in Figure .6.…”
Section: Page Curve and Scrambling Timesupporting
confidence: 82%
“…where we set r b to have the same order with r H , T H is the Hawking temperature defined (2.4), and S BH = 2πr H is the Bekenstein-Hawking entropy. This result is consistant with [25,68].…”
Section: Page Curve and Page Timesupporting
confidence: 60%