Detection of Magnetic Field Gradient and Single Spin Using Optically Levitated Nano-Particle in Vacuum

Ke Wen Xiao; Lei Ming Zhou; Zhang Qi Yin; Nan Zhao

doi:10.1088/0253-6102/70/1/97

Detection of Magnetic Field Gradient and Single Spin Using Optically Levitated Nano-Particle in Vacuum

Ke Wen Xiao, Lei Ming Zhou, Zhang Qi Yin, Nan Zhao

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

Optically levitated nano-particle with spins is a promising system for high-precision measurement and quantum information processing. We theoretically analyze the ratio between the fluctuation of particles displacement caused by spins in magnetic field and caused by molecular collisions of the residual air. When the ratio is larger than unity, the displacement fluctuation of spins flipping can be remarkably detected. By theoretical analysis and numerical simulation, we propose and validate a scheme for the detection of gradient of the magnetic field by levitating ferromagnetic nano-particle, and also put forward a realizable detection scheme of the single spin by levitating nano-diamond particle with single nitrogen-vacancy(NV) centers.

源语言	英语
页（从-至）	97-105
页数	9
期刊	Communications in Theoretical Physics
卷	70
期	1
DOI	https://doi.org/10.1088/0253-6102/70/1/97
出版状态	已出版 - 1 7月 2018
已对外发布	是

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Xiao, K. W., Zhou, L. M., Yin, Z. Q., & Zhao, N. (2018). Detection of Magnetic Field Gradient and Single Spin Using Optically Levitated Nano-Particle in Vacuum. Communications in Theoretical Physics, 70(1), 97-105. https://doi.org/10.1088/0253-6102/70/1/97

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abstract = "Optically levitated nano-particle with spins is a promising system for high-precision measurement and quantum information processing. We theoretically analyze the ratio between the fluctuation of particles displacement caused by spins in magnetic field and caused by molecular collisions of the residual air. When the ratio is larger than unity, the displacement fluctuation of spins flipping can be remarkably detected. By theoretical analysis and numerical simulation, we propose and validate a scheme for the detection of gradient of the magnetic field by levitating ferromagnetic nano-particle, and also put forward a realizable detection scheme of the single spin by levitating nano-diamond particle with single nitrogen-vacancy(NV) centers.",

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PY - 2018/7/1

Y1 - 2018/7/1

N2 - Optically levitated nano-particle with spins is a promising system for high-precision measurement and quantum information processing. We theoretically analyze the ratio between the fluctuation of particles displacement caused by spins in magnetic field and caused by molecular collisions of the residual air. When the ratio is larger than unity, the displacement fluctuation of spins flipping can be remarkably detected. By theoretical analysis and numerical simulation, we propose and validate a scheme for the detection of gradient of the magnetic field by levitating ferromagnetic nano-particle, and also put forward a realizable detection scheme of the single spin by levitating nano-diamond particle with single nitrogen-vacancy(NV) centers.

AB - Optically levitated nano-particle with spins is a promising system for high-precision measurement and quantum information processing. We theoretically analyze the ratio between the fluctuation of particles displacement caused by spins in magnetic field and caused by molecular collisions of the residual air. When the ratio is larger than unity, the displacement fluctuation of spins flipping can be remarkably detected. By theoretical analysis and numerical simulation, we propose and validate a scheme for the detection of gradient of the magnetic field by levitating ferromagnetic nano-particle, and also put forward a realizable detection scheme of the single spin by levitating nano-diamond particle with single nitrogen-vacancy(NV) centers.

KW - optical tweezers

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Detection of Magnetic Field Gradient and Single Spin Using Optically Levitated Nano-Particle in Vacuum

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