用擦除转换对俘获离子亚稳态量子误差的校正

IF 9.3 Q1 PHYSICS, APPLIED PRX quantum : a Physical Review journal Pub Date : 2022-10-26 DOI:10.1103/PRXQuantum.4.020358

Mingyu Kang, W. C. Campbell, K. Brown

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引用次数: 12

摘要

擦除，或具有已知位置的错误，是比泡利错误更适合量子纠错码的错误类型。将物理噪声转换为擦除可以显著提高量子纠错的性能。在这里，我们将Wu、Kolkowitz、Puri和Thompson[Nat.Comm.134657（2022）]提出的通过将量子位编码为亚稳原子态来执行擦除转换的想法应用于捕获的离子。我们提出了一种亚稳态捕获离子量子位的擦除转换方案，并建立了各种类型误差的详细模型。然后，我们比较了在各种物理约束下表面码上的基态和亚稳态量子位的逻辑性能，并得出结论，当亚稳态量子位的可实现激光功率更高时，亚稳态量化器可能优于基态量子位。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quantum Error Correction with Metastable States of Trapped Ions Using Erasure Conversion

Erasures, or errors with known locations, are a more favorable type of error for quantum error-correcting codes than Pauli errors. Converting physical noise into erasures can significantly improve the performance of quantum error correction. Here we apply the idea of performing erasure conversion by encoding qubits into metastable atomic states, proposed by Wu, Kolkowitz, Puri, and Thompson [Nat. Comm. 13, 4657 (2022)], to trapped ions. We suggest an erasure-conversion scheme for metastable trapped-ion qubits and develop a detailed model of various types of errors. We then compare the logical performance of ground and metastable qubits on the surface code under various physical constraints, and conclude that metastable qubits may outperform ground qubits when the achievable laser power is higher for metastable qubits.

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