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个人简介

2015年入选为国家杰出青年人才,2007年入选教育部“新世纪优秀人才支持计划”。1998年毕业于中国科技大学物理系,获博士学位,导师郭光灿院士。1998年留校任教,在学校“211”工程的支持下负责筹建非线性光学实验室,并在此基础上建立量子信息实验室。所领导小组在国内率先制备了脉冲纠缠光子对。2001年四月-2004年十一月作为日本科学技术振兴事业机构研究员,在日本NEC基础研究所从事量子光学, 非线性光学和量子信息的理论和实验研究。并于2005年两次受邀在日本短期访问。2007/12 - 至今,中国科技大学,物理学院,教授 2001/04-2004/11, 日本电气株式会社,基础研究所,JST研究员 2001/01 – 2007/12,中国科技大学,物理学院,副教授 1998/09 – 2000/12,中国科技大学,物理学院,讲师

研究领域

1.基于原子系综的量子信息实验研究2.基于涡旋光场的光信息处理研究3.基于非线性过程的量子信息和量子光学的实验研究。

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1] Chen Yang, Zhi-Yuan Zhou,et.al. Nonlinear frequency conversion and manipulation of vector beams in a Sagnac loop. Opt. Lett. 44, 219-222 (2019). [2]Yan Li, Zhi-Yuan Zhou, et.al., Frequency doubling of twisted light independent of the integer topological charge.OSA Continuum 2, 470-477 (2019) [3]Ying-hao Ye, et.al. Experimental realization of optical storage of vector beams of light in warm atomic vapor. Opt. Lett. , 2019, 44(7): 1528-1531.(Editor-highlighted) [4] Shi Bao-Sen, Ding Dong-Sheng, et.al., Raman protocol-based quantum memories. Acta Physica Sinica, 2019, 68(3): 034203. doi:10.7498/aps.68.20182215.(物理学报综述文章:基于拉曼协议的量子存储). [5]Liu S K, et al. Up-conversion imaging processing with field-of-view and edge enhancement[J].Phys. Rev. Applied 11, 044013.‍ [6]Shi-Long Liu, et. al., Classical simulation of high-dimensional entanglement by non-separable angular–radial modes, Opt. Express 27, 18363-18375 (2019). Abstract [7]Shi-long,Liu, et al.Classical analogy of a cat state using vortex light. Communications Physics Volume 2, Article number: 75 (2019). ‍Abstract‍ [8] Shi-Long Liu, et.al., , Multiplexing heralded single photon in orbital angular momentum space, Phys. Rev. A 100, 013833. [9] Kai-Wang, et.al., Experimental demonstration of Two-Color Einstein-Podoisky-Rosen Entanglement in a Hot vapor cell, OSA Continuum 2, 2260-2265 (2019). [10]Wei Zhang, et.al., Einstein-Podolsky-Rosen Entanglement between Separated Atomic Ensembles (Accept by PRA). [1]Bao-Sen Shi, Dong-Sheng Ding and Wei Zhang,Quantum storage of orbital angular momentum entanglement in cold atomic ensembles 2018 J. Phys. B: At. Mol. Opt. Phys. 51 032004 [Topical Reviews.] [2]S. Liu, Z. Han, S. Liu, Y. Li, Z. Zhou, and B. Shi, "Efficient 525 nm laser generation in single or double resonant cavity," Optics Communications 410, 215-221 (2018) [3]Yu Y C, Ding D S, Dong M X, et al. Self-stabilized narrow-bandwidth and high-fidelity entangled photons generated from cold atoms[J]. PRA, 2018, 97(4): 043809. [4]Zhu Z H, Chen P, Li H W, et al. Fragmentation of twisted light in photon–phonon nonlinear propagation[J]. Applied Physics Letters, 2018, 112(16): 161103. [5] Fang W T, Li Y H, Zhou Z Y, et al. On-chip generation of time-and wavelength-division multiplexed multiple time-bin entanglement[J]. Optics Express, 2018, 26(10): 12912-12921. [6]S. Shi, D. S. Ding, et.al. Vortex-phase-dependent momentum and position entanglement generated from cold atoms[J]. Phys. Rev. A 97, 063847. [7]Ding, Dong-Sheng. Broad Bandwidth and High Dimensional Quantum Memory Based on Atomic Ensembles. Springer. 91-107. (2018) [8] Zhi-Yuan Zhou, Shi Kai Liu et.al. Revealing the Behavior of Photons in a Birefringent Interferometer. Phys. Rev. Lett. 120, 263601 [9] Li Y H, Fang W T, Zhou Z Y, et al. Quantum frequency conversion for multiplexed entangled states generated from micro-ring silicon chip[J]. Optics Express, 2018, 26(22): 28429-28440.

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