学校教师主页介绍

吴彬，河南平舆县人，党员，博士，浙江工业大学应用物理系副教授。

一、教育背景与工作经历

二、主要研究领域：量子技术、冷原子物理、原子光学、冷原子重力仪、量子精密测量

三、发表论文

[1] B. Wu, Y. Zhou, B. Cheng, D. Zhu, K.N. Wang, X.X. Zhu, P.J. Chen, K.X. Weng, Q.H. Yang, J.H. Lin, K.J. Zhang, H.L. Wang, Q. Lin, Static measurement of absolute gravity in truck based on atomic gravimeter, Acta Phys. Sin., 69 (2020).

[2] B. Wu, B. Cheng, Z. J. Fu, D. Zhu, L. M. Wu, K. N. Wang, H. L. Wang, Z. Y. Wang, X. L. Wang, Q. Lin, Influence of Raman laser sidebands effect on the measurement accuracy of cold atom gravimeter, Acta Phys. Sin., 68 (2019).

[3] B. Wu, D. Zhu, B. Cheng, L.M. Wu, K.N. Wang, Z.Y. Wang, Q. Shu, R. Li, H.L. Wang, X.L. Wang, Q. Lin, Dependence of the sensitivity on the orientation for a free-fall atom gravimeter, Opt. Express, 27 (2019) 11252-11263.

[4] B. Wu, Y. Zhou, K.X. Weng, D. Zhu, Z.J. Fu, B. Cheng, X.L. Wang, Q. Lin, Modulation transfer spectroscopy for D1 transition line of rubidium, Journal of the Optical Society of America B, 35 (2018) 2705-2710.

[5] B. Wu, B. Cheng, Z.J. Fu, D. Zhu, Y. Zhou, K.X. Weng, X.L. Wang, Q. Lin, Measurement of absolute gravity based on cold atom gravimeter at large tilt angle, Acta Phys. Sin., 67 (2018).

[6] K. Weng, B. Wu, J. Lin, Y. Zhou, B. Cheng, Q. Lin, A compact magneto-optical trap with a quartz vacuum chamber for miniature gravimeters, Journal of the Optical Society of America B, 37 (2020) 1637.（共一作）

[7] Y. Zhou, D. Luo, B. Wu, B. Cheng, Q. Lin, Active vibration isolation system based on the LADRC algorithm for atom interferometry, Appl Optics, 59 (2020) 3487-3493.

[8] Z.J. Fu, B. Wu, B. Cheng, Y. Zhou, K.X. Weng, D. Zhu, Z.Y. Wang, Q. Lin, A new type of compact gravimeter for long-term absolute gravity monitoring, Metrologia, 56 (2019) 025001. （通讯作者）

[9] Y. Zhou, L. Wu, B. Wu, B. Cheng, H. Wang, L. Chen, S. Gao, Q. Lin, Fourier-domain modeling of gravity effects caused by a vertical polyhedral prism, with application to a water reservoir storage process, Geophysics, 85 (2020) 1-47.

[10] B. Cheng, Y. Zhou, P.J. Chen, K.J. Zhang, D. Zhu, K.N. Wang, K.X. Weng, H.L. Wang, S.P. Peng, X.L. Wang, B. Wu, Q. Lin, Absolute gravity measurement based on atomic gravimeter under mooring state of a ship, Acta Phys. Sin., 70 (2021).（通讯作者）

[11] Z.J. Fu, Q.Y. Wang, Z.Y. Wang, B. Wu, B. Cheng, Q. Lin, Participation in the absolute gravity comparison with a compact cold atom gravimeter, Chin. Opt. Lett., 17 (2019) 011204.

[12] L. Zhang, Y. Zhou, K. Weng, B. Cheng, B. Wu, Q. Lin, Z. Hu, The gravity estimation with square root unscented Kalman filter in the cold atom gravimeter, Eur Phys J D, 74 (2020).

[13] P.X. Miao, W.Q. Zheng, S.Y. Yang, B. Wu, B. Cheng, J.H. Tu, H.L. Ke, W. Yang, J. Wang, J.Z. Cui, Wide-range and self-locking atomic magnetometer based on free spin precession, Journal of the Optical Society of America B 36 (2019) 819-828.

[14] D. Y. Luo, C. Bing, Z. Yin, W. Bin, X. L. Wang, L. Qiang, Ultra-low frequency active vibration control for cold atom gravimeter based on sliding-mode robust algorithm, Acta Phys Sin-Ch Ed, 67 (2018).

[15] L. Wu, L. Chen, B. Wu, B. Cheng, Q. Lin, Improved Fourier modeling of gravity fields caused by polyhedral bodies: with applications to asteroid Bennu and comet 67P/Churyumov–Gerasimenko, Journal of Geodesy, (2019) 1-22.

[16] Q. Wang, Z. Wang, Z. Fu, W. Liu, Q. Lin, A compact laser system for the cold atom gravimeter, Opt. Commun., 358 (2016) 82-87.

[17] B. Wu, Z.Y. Wang, B. Cheng, Q.Y. Wang, A.P. Xu, Q. Lin, The investigation of a muGal-level cold atom gravimeter for field applications, Metrologia, 51 (2014) 452-458.

[18] B. Wu, Z.Y. Wang, B. Cheng, Q.Y. Wang, A.P. Xu, D.L. Kong, Q. Lin, Experimental verification of the Breit–Rabi formula in the case of clock transition by using the spectroscopy method, Journal of the Optical Society of America B 31 (2014) 742-747.

[19] B. Wu, Z.Y. Wang, B. Cheng, Q.Y. Wang, A.P. Xu, Q. Lin, Accurate measurement of the quadratic Zeeman coefficient of 87Rb clock transition based on the Ramsey atom interferometer, Journal of Physics B: Atomic, Molecular and Optical Physics, 47 (2013) 015001.

[20] 吴彬, 王肖隆, 王河林, 王兆英, 林强, 冷原子干涉型重力仪的发展现状与趋势, 导航与控制, 14 (2015) 2-9.

[21] B. Cheng, Z.Y. Wang, B. Wu, A.P. Xu , Q.Y. Wang, Y.F. Xu, Q. Lin, Laser frequency stabilization and shifting by using modulation transfer spectroscopy, Chin. Phys. B, 23 (2014) 104222.

[22] B. Cheng, Z. Wang, B. Wu, A. Xu, Q. Wang, Q. Lin, The effects of the non-uniformity of Raman laser beams on an atom interferometer, The European Physical Journal D, 68 (2014) 1-7.

[23] J. Zhang, Z. Wang, B. Cheng, Q. Wang, B. Wu, X. Shen, L. Zheng, Y. Xu, Q. Lin, Atom cooling by partially spatially coherent lasers, Phys. Rev. A, 88 (2013) 023416.

[24] X.L. Wang, T.J. Tao, B. Cheng, B. Wu, Y.F. Xu, Z.Y. Wang, Q. Lin, A Digital Phase Lock Loop for an External Cavity Diode Laser, Chin. Phys. Lett, 28 (2011) 084214.

[25] X.L. Wang, B. Cheng, B. Wu, Z.Y. Wang, Q. Lin, A Simplified Cold Atom Source for 3-D MOT Loading, Chin. Phys. Lett, 28 (2011) 053701.

四、专利

[1]. 吴彬、周寅、程冰等。一种可移动冷原子绝对重力加速度传感器，申请号：201710128755.3。（授权）

[2]. 翁堪兴、吴彬等。用于冷原子干涉型重力仪中地磁场补偿的恒流源，申请号：201610581284.7。（授权）

[3]. 罗东云、吴彬等。超低频地脉振动原子干涉仪隔振方法，申请号：201610590524.X。（授权）

[4]. 翁堪兴、吴彬等。用于冷原子干涉型重力仪中TOF荧光信号探测放大器，申请号：201610994203.6。（受理）

[5]. 翁堪兴、吴彬等。用于冷原子干涉型重力仪中拉曼光锁相的鉴频鉴相器，申请号：201710566477.X。（受理）

[6]. 翁堪兴、吴彬等。用于冷原子干涉型重力仪中磁光阱磁场的快速开关装置，申请号：201620856408.3。（受理）

[7]. 翁堪兴、吴彬等。用于冷原子干涉型重力仪可快速开关恒流源，申请号：201710043698.9。（受理）

[8]. 李德钊、吴彬等。一种全玻璃碱金属原子气室的制备方法，申请号：201910265406.5。（受理）

[9]. 罗东云、程冰、吴彬等。用于冷原子干涉仪激光时序控制的DDS跳频装置，申请号：201621240683.9。（受理）

[10]. 林佳宏、翁堪兴、吴彬等。一种用于冷原子干涉型重力仪中拉曼跃迁频率发生装置，申请号：201910482152.2。

（受理）

[11]. 张柳青、胡正珲、朱栋、吴彬等。一种基于冷原子干涉型重力仪的重力值估计方法，申请号：201910499629.8。

（受理）

[12]. 王肖隆、杨钢、冀聪、王子轩、王晶、陈春霖、吴彬等。用于空间三自由度纳米定位平台的传动机构，申请号：201910265390.8。（受理）

[13]. 王肖隆、杨钢、冀聪、王子轩、王晶、陈春霖、吴彬等。通过光学干涉方法实时读取位移转动信息的三自由度纳米定位平台，申请号：201910265406.5。（受理）

[14]. 王肖隆、冀聪、王子轩、王晶、杨钢、陈春霖、吴彬等。基于光学劈尖干涉的纳米分辨率位移测量装置，申请号：201811583217.4。（受理）

五、主持及参与项目