Quantum Codes Do Not Fix Qubit Independent Errors

Jesús García López de Lacalle, Luis Miguel Pozo Coronado, André L. Fonseca de Oliveira, Rafael Mart´ın-Cuevas
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引用次数: 2

Abstract

The goal of this work is to analyse the performance of quantum error correction codes in regard to fixing independent errors in several qubits. We say that a quantum code does not fix a quantum computing error if its application does not reduce the variance of the error. We restrict our study to the classical 5−qubit quantum error correcting code (proposed by Laflamme and some collaborators), which is able to correct arbitrary errors in a single qubit and is also fault-tolerant. We show that this code does not fix qubit independent errors, even assuming that the correction circuit does not introduce new errors. We also prove, for qubit independent errors, that if the correction circuit of the 5−qubit quantum code detects an error, then the corrected state has central symmetry and, as a consequence, its variance is maximal. We have been able to obtain these results thanks to the high symmetry of the 5−qubit quantum code. Although the calculations needed to extend our proofs to less symmetric codes seem to be extremely complicated, we nevertheless think that the results obtained for the 5−qubit quantum code reveal a general behavior pattern of quantum error correcting codes against qubit independent errors.
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量子代码不修复量子比特独立错误
这项工作的目标是分析量子纠错码在固定几个量子位的独立错误方面的性能。如果量子码的应用不能减小误差的方差,我们就说量子码不能修正量子计算误差。我们的研究仅限于经典的5 -量子位量子纠错码(由Laflamme和一些合作者提出),它能够纠正单个量子位中的任意错误,并且具有容错性。我们证明,即使假设校正电路不引入新的错误,该代码也不会修复与量子比特无关的错误。我们还证明,对于与量子比特无关的错误,如果5 -量子比特量子码的校正电路检测到错误,则校正状态具有中心对称性,因此,其方差是最大的。我们之所以能够得到这些结果,要归功于5 -量子比特量子码的高对称性。尽管将我们的证明扩展到非对称码所需的计算似乎非常复杂,但我们认为,从5 -量子位量子码中获得的结果揭示了量子纠错码对量子位独立错误的一般行为模式。
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