Entropy Inequalities Constrain Holographic Erasure Correction

Bartlomiej Czech; Sirui Shuai; Yixu Wang

arXiv:2502.12246·hep-th·February 19, 2025

Entropy Inequalities Constrain Holographic Erasure Correction

Bartlomiej Czech, Sirui Shuai, Yixu Wang

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TL;DR

This paper links holographic entropy inequalities to erasure correction, showing that non-saturation indicates potential for holographic erasure correction schemes through entanglement wedge overlaps.

Contribution

It introduces a novel interpretation of holographic entropy inequalities as constraints on holographic erasure correction schemes.

Findings

01

Non-saturation of inequalities signals possible erasure correction schemes.

02

Overlaps of entanglement wedges correspond to erasure correction capabilities.

03

Provides a geometric criterion for holographic erasure correction.

Abstract

We interpret holographic entropy inequalities in terms of erasure correction. The non-saturation of an inequality is a necessary condition for certain schemes of holographic erasure correction, manifested in the bulk as non-empty overlaps of corresponding entanglement wedges.

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Taxonomy

TopicsWelding Techniques and Residual Stresses · Advancements in Photolithography Techniques · Advanced Semiconductor Detectors and Materials