Universal quantum control in zero-field nuclear magnetic resonance

Ji Bian; Min Jiang; Jiangyu Cui; Xiaomei Liu; Botao Chen; Yunlan Ji; Bo Zhang; John Blanchard; Xinhua Peng; Jiangfeng Du

doi:10.1103/PhysRevA.95.052342

Universal quantum control in zero-field nuclear magnetic resonance

Ji Bian, Min Jiang, Jiangyu Cui, Xiaomei Liu, Botao Chen, Yunlan Ji, Bo Zhang, John Blanchard, Xinhua Peng^*, Jiangfeng Du

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

This paper describes a general method for the manipulation of nuclear spins in zero magnetic field. In the absence of magnetic fields, the spins lose the individual information on chemical shifts and inequivalent spins can only be distinguished by nuclear gyromagnetic ratios and spin-spin couplings. For spin-12 nuclei with different gyromagnetic ratios (i.e., different species) in zero magnetic field, we describe the scheme to realize a set of universal quantum logic gates, e.g., arbitrary single-qubit gates and a two-qubit controlled-not gate. This method allows for universal quantum control in systems which might provide promising applications in materials science, chemistry, biology, quantum information processing, and fundamental physics.

源语言	英语
文章编号	052342
期刊	Physical Review A
卷	95
期	5
DOI	https://doi.org/10.1103/PhysRevA.95.052342
出版状态	已出版 - 23 5月 2017
已对外发布	是

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Bian, J., Jiang, M., Cui, J., Liu, X., Chen, B., Ji, Y., Zhang, B., Blanchard, J., Peng, X., & Du, J. (2017). Universal quantum control in zero-field nuclear magnetic resonance. Physical Review A, 95(5), 文章 052342. https://doi.org/10.1103/PhysRevA.95.052342

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abstract = "This paper describes a general method for the manipulation of nuclear spins in zero magnetic field. In the absence of magnetic fields, the spins lose the individual information on chemical shifts and inequivalent spins can only be distinguished by nuclear gyromagnetic ratios and spin-spin couplings. For spin-12 nuclei with different gyromagnetic ratios (i.e., different species) in zero magnetic field, we describe the scheme to realize a set of universal quantum logic gates, e.g., arbitrary single-qubit gates and a two-qubit controlled-not gate. This method allows for universal quantum control in systems which might provide promising applications in materials science, chemistry, biology, quantum information processing, and fundamental physics.",

author = "Ji Bian and Min Jiang and Jiangyu Cui and Xiaomei Liu and Botao Chen and Yunlan Ji and Bo Zhang and John Blanchard and Xinhua Peng and Jiangfeng Du",

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AU - Bian, Ji

AU - Jiang, Min

AU - Cui, Jiangyu

AU - Liu, Xiaomei

AU - Chen, Botao

AU - Ji, Yunlan

AU - Zhang, Bo

AU - Blanchard, John

AU - Peng, Xinhua

AU - Du, Jiangfeng

PY - 2017/5/23

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N2 - This paper describes a general method for the manipulation of nuclear spins in zero magnetic field. In the absence of magnetic fields, the spins lose the individual information on chemical shifts and inequivalent spins can only be distinguished by nuclear gyromagnetic ratios and spin-spin couplings. For spin-12 nuclei with different gyromagnetic ratios (i.e., different species) in zero magnetic field, we describe the scheme to realize a set of universal quantum logic gates, e.g., arbitrary single-qubit gates and a two-qubit controlled-not gate. This method allows for universal quantum control in systems which might provide promising applications in materials science, chemistry, biology, quantum information processing, and fundamental physics.

AB - This paper describes a general method for the manipulation of nuclear spins in zero magnetic field. In the absence of magnetic fields, the spins lose the individual information on chemical shifts and inequivalent spins can only be distinguished by nuclear gyromagnetic ratios and spin-spin couplings. For spin-12 nuclei with different gyromagnetic ratios (i.e., different species) in zero magnetic field, we describe the scheme to realize a set of universal quantum logic gates, e.g., arbitrary single-qubit gates and a two-qubit controlled-not gate. This method allows for universal quantum control in systems which might provide promising applications in materials science, chemistry, biology, quantum information processing, and fundamental physics.

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Universal quantum control in zero-field nuclear magnetic resonance

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