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An angular momentum approach to quantum insertion errors

Quantum Physics 2025-09-04 v1

Abstract

Quantum insertion errors are a class of errors that increase the number of qubits in a quantum system. Despite a wealth of research on classical insertion errors, there has been limited progress towards a general framework for correcting quantum insertion errors. We detail a quantum error correction protocol that can correct single insertion errors on a class of gapped permutation-invariant codes. We provide a simple two-stage syndrome extraction protocol that yields a two-bit syndrome, by measuring the total angular momentum and its projection along the zz-axis (modulo the code gap) of the post-insertion state. We demonstrate that these measurements project the state onto a new codespace, and we detail a teleportation protocol to map the projected state back to a permutation-invariant code on the desired number of qubits.

Keywords

Cite

@article{arxiv.2509.03413,
  title  = {An angular momentum approach to quantum insertion errors},
  author = {Lewis Bulled and Yingkai Ouyang},
  journal= {arXiv preprint arXiv:2509.03413},
  year   = {2025}
}

Comments

14 pages, 3 figures

R2 v1 2026-07-01T05:19:27.901Z