Resilient Quantum Computation in Correlated Environments: A Quantum Phase Transition Perspective

E. Novais; Eduardo R. Mucciolo; Harold U. Baranger

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Resilient Quantum Computation in Correlated Environments: A Quantum Phase Transition Perspective

机译：相关环境中的弹性量子计算：量子相变观点

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We analyze the problem of a quantum computer in a correlated environment protected from decoher-ence by quantum error correction using a perturbative renormalization group approach. The scaling equation obtained reflects the competition between the dimension of the computer and the scaling dimension of the correlations. For an irrelevant flow, the error probability is reduced to a stochastic form for a long time and/or a large number of qubits; thus, the traditional derivation of the threshold theorem holds for these error models. In this way, the "threshold theorem" of quantum computing is rephrased as a dimensional criterion.

机译：我们分析了在一个相关环境中的量子计算机的问题，该环境通过使用扰动重归一化组方法进行量子误差校正而免受退相干的影响。所获得的比例方程反映了计算机维数与相关性比例维数之间的竞争。对于无关的流，长时间和/或大量的量子位将错误概率降低为随机形式；因此，阈值定理的传统推导适用于这些误差模型。这样，将量子计算的“阈值定理”重新定义为尺寸标准。

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来源
《Physical review letters》 |2007年第4期|040501.1-040501.4|共4页
作者
E. Novais; Eduardo R. Mucciolo; Harold U. Baranger;
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作者单位

Department of Physics, Duke University, Durham, North Carolina 27708-0305, USA;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
quantum error correction and other methods for protection against decoherence; decoherence; open systems; quantum statistical methods; quantum computation; general studies of phase transitions;

机译：量子误差校正和其他防止退相干的方法;退相干开放系统;量子统计方法;量子计算相变的一般研究;

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机译：评“相关环境中的弹性量子计算：a 量子相变视角“和”容错量子计算与长寿相关噪声“

Resilient Quantum Computation in Correlated Environments: A Quantum Phase Transition Perspective

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