Related papers: Angular $k$-uniformity and the Hyperinvariance of Holographic Codes

Angular $k$-uniformity and the Hyperinvariance of Holographic Codes

URL: http://arxiv.org/abs/2506.06577v1
Date: Fri, 06 Jun 2025 23:08:13 GMT
Title: Angular $k$-uniformity and the Hyperinvariance of Holographic Codes
Authors: Wanli Cheng,
Abstract summary: Holographic quantum error-correcting codes have emerged as compelling toy models for exploring bulk-boundary duality in AdS-CFT.<n>We introduce a geometric criterion called angular k-uniformity, which refines standard k-uniformity and its planar variants.<n>This condition enables the systematic identification and construction of hyperinvariant holographic codes on regular hyperbolic honeycombs in arbitrary dimension.
Score: 1.0878040851638
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Holographic quantum error-correcting codes, often realized through tensor network architectures, have emerged as compelling toy models for exploring bulk-boundary duality in AdS-CFT. By encoding bulk information into highly entangled boundary degrees of freedom, they capture key features of holography such as subregion duality, operator reconstruction, and complementary recovery. Among them, hyperinvariant tensor networks-characterized by the inclusion of edge tensors and the enforcement of multi-tensor isometries-offer a promising platform for realizing features such as state dependence and nontrivial boundary correlations. However, existing constructions are largely confined to two-dimensional regular tilings, and the structural principles underlying hyperinvariance remain poorly understood, especially in higher dimensions. To address this, we introduce a geometric criterion called angular k-uniformity, which refines standard k-uniformity and its planar variants by requiring isometric behavior within angular sectors of a tensor's rotationally symmetric layout. This condition enables the systematic identification and construction of hyperinvariant holographic codes on regular hyperbolic honeycombs in arbitrary dimension, and extends naturally to heterogeneous networks and qLEGO architectures beyond regular tilings. Altogether, angular k-uniformity provides a versatile, geometry-aware framework for analyzing and designing holographic tensor networks and codes with hyperinvariant features such as nontrivial boundary correlations and state-dependent complementary recovery.

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