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arxiv: 2209.09390 · v2 · pith:M4YGCVJJ · submitted 2022-09-20 · quant-ph

Concatenation Schemes for Topological Fault-tolerant Quantum Error Correction

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classification quant-ph
keywords errorconcatenationcorrectionfault-tolerantschemeschemesstatecircuit-level
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We investigate a family of fault-tolerant quantum error correction schemes based on the concatenation of small error detection or error correction codes with the three-dimensional cluster state. We propose fault-tolerant state preparation and decoding schemes that effectively convert every circuit-level error into an erasure error, leveraging the cluster state's high threshold against such errors. We find a set of codes for which such a conversion is possible, and study their performance against the standard circuit-level depolarizing model. Our best performing scheme, which is based on a concatenation with a classical code, improves the threshold by $16.5\%$ and decreases the spacetime overhead by $32\%$ compared to the scheme without concatenation, with each scheme subject to a physical error rate of $10^{-3}$ and achieving a logical error rate of $10^{-6}$.

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