全息屏幕封存

arXiv - PHYS - Mathematical Physics Pub Date : 2023-12-11 DOI:arxiv-2312.06750

Aidan Chatwin-Davies, Pompey Leung, Grant N. Remmen

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引用次数: 0

摘要

全息屏幕是余维一的超表面，它将视视界的概念扩展到一般(非黑洞)时空，并显示出有趣的热力学性质。我们证明，如果一个时空包含一个二维、边界同源的最小极值类空间曲面$X$(在AdS/CFT中称为HRT曲面)，那么任何全息屏幕都被隔离到$X$的因果楔上。也就是说，全息屏幕的任何单个连接组件最多可以位于X的因果未来、因果过去、内楔或外楔中的一个。我们评论了这一结果如何告知通用全息屏幕可能的粗粒度熵解释，以及与半经典物体(如量子极值表面)的连接。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Holographic Screen Sequestration

Holographic screens are codimension-one hypersurfaces that extend the notion of apparent horizons to general (non-black hole) spacetimes and that display interesting thermodynamic properties. We show that if a spacetime contains a codimension-two, boundary-homologous, minimal extremal spacelike surface $X$ (known as an HRT surface in AdS/CFT), then any holographic screens are sequestered to the causal wedges of $X$. That is, any single connected component of a holographic screen can be located in at most one of the causal future, causal past, inner wedge, or outer wedge of $X$. We comment on how this result informs possible coarse grained entropic interpretations of generic holographic screens, as well as on connections to semiclassical objects such as quantum extremal surfaces.

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arXiv - PHYS - Mathematical Physics

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