Quantum Mechanical Nature in Liquid NMR Quantum Computing

LONG Gui-Lu; YAN Hai-Yang; LI Yan-Song; TU Chang-Cun; ZHU Sheng-Jiang; RUAN Dong; SUN Yang; TAO Jia-Xun; CHEN Hao-Ming

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Quantum Mechanical Nature in Liquid NMR Quantum Computing

机译：液体NMR量子计算中的量子力学性质

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The quantum nature of bulk ensemble NMR quantum computing the center of recent heated debate,is addressed. Concepts of the mixed state and entanglement are examined, and the data in a two-qubit liquid NMRquantum computation are analyzed. The main points in this paper are: i) Density matrix describes the "state" of anaverage particle in an ensemble. It does not describe the state of an individual particle in an ensemble; ii) Entanglementis a property of the wave function of a microscopic particle (such as a molecule in a liquid NMR sample), and separabilityof the density matrix cannot be used to measure the entanglement of mixed ensemble; iii) The state evolution in bulk-ensemble NMRquantum computation is quantum-mechanical; iv) The coefficient before the effective pure state densitymatrix, e, is a measure of the simultaneity of the molecules in an ensemble. It reflects the intensity of the NMR signaland has no significance in quantifying the entanglement in the bulk ensemble NMR system. The decomposition of thedensity matrix into product states is only an indication that the ensemble can be prepared by an ensemble with theparticles unentangled. We conclude that effective-pure-state NMR quantum computation is genuine, not just classicalsimulations.

机译：讨论了整体集成核磁共振量子计算的量子性质，这是最近争论的焦点。研究了混合态和纠缠的概念，并分析了两比特液体NMR量子计算中的数据。本文的主要观点是：i）密度矩阵描述了集合中平均粒子的“状态”。它没有描述集合中单个粒子的状态; ii）纠缠是微观粒子（例如液态NMR样品中的分子）的波函数的性质，并且密度矩阵的可分离性不能用于测量混合集合体的纠缠; iii）整体核磁共振量子计算中的状态演化是量子力学的; iv）有效纯态密度矩阵e之前的系数是集合中分子同时性的量度。它反映了NMR信号的强度，对定量整体NMR系统中的纠缠没有任何意义。密度矩阵分解为产品状态仅表明该集合可以通过不带纠缠粒子的集合来制备。我们得出结论，有效纯态NMR量子计算是真实的，而不仅仅是经典的模拟。

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来源
《理论物理通讯（英文版）》 |2002年第9期|305-308|共4页
作者
LONG Gui-Lu; YAN Hai-Yang; LI Yan-Song; TU Chang-Cun; ZHU Sheng-Jiang; RUAN Dong; SUN Yang; TAO Jia-Xun; CHEN Hao-Ming;
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作者单位

Department of Physics, Tsinghua University, Beijing 100084, China;

Laboratory for Quantum Computation and Quantum Measurement, Beijing 100084, China;

Center for Atomic and Molecular Nano-Sciences, Tsinghua University, Beijing 100084, China;

Institute of Theo;

Department of Physics, Tsinghua University, Beijing 100084, China,Laboratory for Quantum Computation and Quantum Measurement, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China,Laboratory for Quantum Computation and Quantum Measurement, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China,Laboratory for Quantum Computation and Quantum Measurement, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China;

Laboratory for Quantum Computation and Quantum Measurement, Beijing 100084, China;

Department of Physics and Astronomy, University of Tennessee, Knoxville, Tennessee 37996, USA;

Department of Chemistry, Tsinghua University, Beijing 100084, China;

Department of Physics, Tsinghua University, Beijing 100084, China;

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收录信息中国科学引文数据库(CSCD);
原文格式 PDF
正文语种 chi
中图分类物理学;
关键词
quantum mechanical nature; NMR quantum computing; mixed state; entanglement;

机译：量子力学性质NMR量子计算混合态纠缠;
入库时间 2022-08-19 03:46:28

Quantum Mechanical Nature in Liquid NMR Quantum Computing

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