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Single-shot error correction on toric codes with high-weight stabilizers

Quantum Physics 2023-10-26 v1

Abstract

For quantum error correction codes the required number of measurement rounds typically increases with the code distance when measurements are faulty. Single-shot error correction allows for an error threshold with only one round of noisy syndrome measurements regardless of the code size. Here we implement single-shot check operators for toric codes. The single-shot checks are constructed by Gaussian elimination following Campbell [Campbell, 2019]. The single-shot check operators result in a sustainable threshold at 5.62% for an error model with noisy measurements, outperforming the conventional toric code check operators with multiple rounds of noisy measurement. The cost of the transformation is non-local high-weight stabilizer generators. We then consider a gate-based error model that leads to increased measurement error with stabilizer weight. Here we find no single-shot threshold behavior and instead find the code family will have an optimal code size for a fixed error rate. For this error model, the conventional check operators with multiple measurements yields a lower logical error rate.

Keywords

Cite

@article{arxiv.2310.16160,
  title  = {Single-shot error correction on toric codes with high-weight stabilizers},
  author = {Yingjia Lin and Shilin Huang and Kenneth R. Brown},
  journal= {arXiv preprint arXiv:2310.16160},
  year   = {2023}
}
R2 v1 2026-06-28T13:00:46.785Z