The SWAP-LRC protocol with Located and Critical Decoders mitigates Rydberg-induced leakage in neutral atoms, yielding a 2.33% threshold for detectable cases and comparable error distance for partial detection.
Hardware-efficient, fault-tolerant quantum computation with rydberg atoms
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MBQC on topological cluster states locates Rydberg decay errors via final detection only, achieving 3.65% threshold per CZ gate and d_e ≈ d with lower overhead than erasure conversion.
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Locating Rydberg Decay Error in SWAP-Leakage Reduction Circuit Protocol
The SWAP-LRC protocol with Located and Critical Decoders mitigates Rydberg-induced leakage in neutral atoms, yielding a 2.33% threshold for detectable cases and comparable error distance for partial detection.
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Taming Rydberg Decay with Measurement-based Quantum Computation
MBQC on topological cluster states locates Rydberg decay errors via final detection only, achieving 3.65% threshold per CZ gate and d_e ≈ d with lower overhead than erasure conversion.