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Bibliographic Details
Main Author: Jardine, James Johnstone
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.18779369
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Table of Contents:
  • <p>This work explores the composition of Microsoft's 4D geometric error-correcting codes — built on the 24-cell honeycomb<br>   cellulation — into higher-dimensional logical structures targeting 24D stability. While 4D codes have demonstrated<br>  1,000-fold error rate reduction and single-shot correction on neutral atom arrays, no published work addresses how<br>  these codes compose when stacked or tensored into 8D, 12D, or 24D logical architectures. We investigate the stabilizer<br>   structure under composition, whether single-shot correctability survives dimensional lifting, and the mapping of<br>  composed code geometries onto neutral atom hardware with all-to-all connectivity. This bridges the gap between<br>  demonstrated 4D fault-tolerant codes and the theoretical framework for topological codes beyond dimension 2.</p>