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张巍

博士 教授
信息光电子研究所 副所长


通讯地址
清华大学电子工程系 清华大学罗姆电子工程馆2-101A
北京市海淀区,100084               
电话:  010-6279073-802
传真:  010-62797073-808
电子邮件: zwei@mail.tsinghua.edu.cn
学术网站个人页面
https://www.researchgate.net/profile/Wei_Zhang244
论文引用链接
http://scholar.google.com/citations?user=wicj0A4AAAAJ&hl=zh-CN

教育经历   
2003  获博士学位,博士论文题目“光纤拉曼放大传输系统的若干关键技术”,获清华大学校级优秀博士论文
1998~2003 清华大学电子工程系攻读博士学位,物理电子学专业,师从彭江得教授
1998  获学士学位
1993~1998 清华大学电子工程系本科学习,物理电子与光电子专业


工作经历
2020至今 清华大学电子工程系 长聘教授,博士生导师

2014~2020  清华大学电子工程系 长聘副教授,博士生导师,特别研究员
2011至今  清华大学电子工程系 博士生导师,信息光电子研究所副所长
2007~2014 清华大学电子工程系 副教授
2003~2006 清华大学电子工程系 讲师


教学工作
研究生基础课“高等电动力学”,64学时/学年
研究生专业课“光量子信息技术导论”,16学时/学年
研究生专业课“光子晶体与光学微腔基础”,16学时/学年


科研工作
光量子器件及其应用
1. 光通信波段量子光源及其量子工程应用
利用光纤光学和硅光子芯片技术发展各种关联/纠缠光量子态的产生技术,以此为基础探索各种量子工程应用
2. 硅光量子集成芯片
面向光量子器件集成化发展的趋势,研究在硅光子芯片上实现光量子态产生,操控,探测的新器件和复杂量子信息功能集成
3. 新结构和新材料介观波导及其光量子器件应用
面向光量子器件,特别是光量子集成芯片面临的关键技术问题,发展包括硫化物玻璃波导,表面等离激源波导,聚合物波导,纳米线,微结构光纤等多种材料和结构的混合集成量子芯片体系,实现复杂光量子信息功能的芯片集成


代表性学术论文
量子通信,量子成像和其他量子信息应用方向

[1] Liu, Xu; Yao, Xin; Wang, Heqing; Li, Hao; Wang, Zhen; You, Lixing; Huang, Yidong; Zhang, Wei*, “Energy-time entanglement-based dispersive optics quantum key distribution over optical fibers of 20 km,” Applied Physics Letters, 114,141104, 2019

[2] Xin Yao, Xu Liu, Lixing You, Zhen Wang, Xue Feng, Fang Liu, Kaiyu Cui, Yidong Huang, and Wei Zhang*, “Quantum secure ghost imaging,” Physical Review A, 98, 063816, 2018
[3] Feng Zhu, Wei Zhang*, Yubo Sheng, Yidong Huang, “Experimental long-distance quantum secure direct communication,” Science Bulletin, 62, 1519?1524, 2017
[4] Shuai Dong, Wei Zhang*, Yidong Huang, Jiangde Peng, “Long-distance temporal quantum ghost imaging over optical fibers,” Scientific Reports, 6,26022, 2016 
[5] Xin Yao, Wei Zhang*, Hao Li, Lixing You, Zhen Wang, Yidong Huang, “Long-distance thermal temporal ghost imaging over optical fibers,” Optics Letters, 43, 4, 759-762, 2018
[6] Sun, Qi-Chao; Jiang, Yang-Fan; Mao, Ya-Li; You, Li-Xing; Zhang, Wei; Zhang, Wei-Jun; Jiang, Xiao; Chen, Teng-Yun; Li, Hao; Huang, Yi-Dong; Chen, Xian-Feng; Wang, Zhen; Fan, Jingyun; Zhang, Qiang*; Pan, Jian-Wei*, “Entanglement swapping over 100 km optical fiber with independent entangled photon-pair sources,” OPTICA,4(10), 1214-1218, 2017         
[7] Sun, Qi-Chao; Mao, Ya-Li; Jiang, Yang-Fan; Zhao, Qi; Chen, Si-Jing; Zhang, Wei; Zhang, Wei-Jun; Jiang, Xiao; Chen, Teng-Yun; You, Li-Xing; Li, Li; Huang, Yi-Dong; Chen, Xian-Feng; Wang, Zhen; Ma, Xiongfeng; Zhang, Qiang*; Pan, Jian-Wei*, “Entanglement swapping with independent sources over an optical-fiber networ,” Physical Review A, 95, 032306, 2017
[8] Sun, Qi-Chao; Mao, Ya-Li; Chen, Si-Jing; Zhang, Wei; Jiang, Yang-Fan; Zhang, Yan-Bao; Zhang, Wei-Jun; Miki, Shigehito; Yamashita, Taro; Terai, Hirotaka; Jiang, Xiao; Chen, Teng-Yun; You, Li-Xing; Chen, Xian-Feng; Wang, Zhen; Fan, Jing-Yun; Zhang, Qiang*; Pan, Jian-Wei*, “Quantum teleportation with independent sources and prior entanglement distribution over a network,” Nature Photonics, 10(10),671-675, 2016     
[9] Feng Zhu; Wei Zhang*, Sijing Chen, Lixing You, Zhen Wang, Yidong Huang, “Experimental device-independent tests of classical and quantum entropy,” Physical Review A,94,062340, 2016
[10] Feng Zhu, Wei Zhang*, Yidong Huang, “Relations among non-chordal compatibility graphs, imperfect exclusivity graphs and quantum correlations,” European Physical Journal D,70,205, 2016 

集成光量子器件方向
[1] Lingjie Yu, Chenzhi Yuan, Renduo Qi, Yidong Huang, Wei Zhang*, "A hybrid waveguide scheme for silicon-based quantum photonic circuits with quantum light sources," Photonics Research, accepted. (arXiv:1911.12154)
[2 Rong Xue, Xin Yao, Xu Liu, Heqing Wang, Hao Li, Zhen Wang, Lixing You, Yidong Huang, and Wei Zhang*, “Spatial Quantum Beating of Adjustable Biphoton Frequency Comb with High-Dimensional Frequency-Bin Entanglement,” IEEE Photonics Journal,11,7500109, 2019
[3] Lingjie Yu, Heqing Wang, Hao Li, Zhen Wang, Yidong Huang, Lixing You, Wei Zhang*, “A Silicon Shallow-Ridge Waveguide Integrated Superconducting Nanowire Single Photon Detector Towards Quantum Photonic Circuits,” Chinese Physics Letters,36(8), 084202, 2019
[4] Jing Suo, Wei Zhang*, Yidong Huang, “Impact of Backscattering in Silicon Micro-ring Resonators on Photon Pair Generation,” Journal of the Physical Society of Japan,86,054401, 2017
[5] Jing Suo, Wei Zhang*, Shuai Dong&, Yidong Huang, Jiangde Peng, “Discrete Frequency Entangled Photon Pair Generation Based on Silicon Micro-ring Cavities,” Journal of the Physical Society of Japan,85(10), 104401, 2016     
[6] Jing Suo, Shuai Dong, Wei Zhang*, Yidong Huang, and Jiangde Peng, “Generation of hyper-entanglement on polarization and energy-time based on a silicon micro-ring cavity,” Optics Express, 23(4), 3985, 2015
[7] Yuan Guo, Wei Zhang*, Shuai Dong&, Yidong Huang, Jiangde Peng, “Telecom-band degenerate-frequency photon pair generation in silicon microring cavities,” Optics Letters, 39(8),2526-2529, 2014
[8] Yuan Guo, Wei Zhang*, Ning Lv, Qiang Zhou, Yidong Huang, Jiangde Peng, “The impact of nonlinear losses in the silicon micro-ring cavities on CW pumping correlated photon pair generation,” Optics Express, 22, 2620-2631,2014    
[9] Ning Lv, Wei Zhang*, Yuan Guo, Qiang Zhou, Yidong Huang, Jiangde Peng, “1.5mm polarization entanglement generation based on birefringence in siicon wire waveguides,” Optics Letters, 38(15) 2873-2876, 2013
[10] Jierong Cheng, Wei Zhang*, Qiang Zhou, Yu Wang, Yidong Huang and Jiangde Peng, “Single polarization transmission in pedestal-supported silicon waveguides,” Optics Letters, 36(10), 1797, 2011.
[11] Jierong Cheng, Wei Zhang*, Qiang Zhou, Xue Feng, Yidong Huang and Jiangde Peng, “Correlated photon pair generation in silicon wire waveguides at 1.5 μm,” Chinese Physics Letters, 27(12), 124208, 2010 

光纤量子光源方向                    
[1] Shuai Dong, Xin Yao, Wei Zhang*, Sijing Chen, Weijun Zhang, Lixing You, Zhen Wang, Yidong Huang, “True Single-Photon Stimulated Four-Wave Mixing,” ACS Photonics,4(4),746-753, 2017      
[2] Feng Zhu, Wei Zhang*, Yidong Huang, “Fiber based frequency-degenerate polarization entangled photon pair sources for information encoding,” Optics Express, 24(22),25619-25628, 2016
[3] Shuai Dong, Lingjie Yu, Wei Zhang*, Junjie Wu, Weijun Zhang, Lixing You, Yidong Huang, “Generation of hyper-entanglement in polarization/energy-time and discrete-frequency/energy-time in optical fibers,” Scientific Reports, 5, 9195, 2015
[4] Shuai Dong, Qiang Zhou, Wei Zhang*, Yuhao He, Weijun Zhang, Lixing You, Yidong Huang, Jiangde Peng, “Energy-time entanglement generation in optical fibers under CW pumping,” Optics Express, 22(1),359-368, 2014
[5] Qiang Zhou, Shuai Dong, Wei Zhang*, Lixing You, Yuhao He, Weijun Zhang, Yidong Huang, Jiangde Peng, “Frequency-entanglement preparation based on the coherent manipulation of frequency nondegenerate energy-time entangled state,” Journal of the Optical Society of America B, 31(8),1801-1806, 2014
[6] Qiang Zhou, Wei Zhang*, Chenzhi Yuan, Yidong Huang, Jiangde Peng, “Generation of 1.5 mu m discrete frequency-entangled two-photon state in polarization-maintaining fibers,” Optics Letters, 39(7),2109-2112, 2014
[7] Tianyi Ma, Qiang Zhou, Wei Zhang*, Yidong Huang, Xiaowei Cui, Mingquan Lu, Bingkun Zhou “1.5 mu m orthogonally polarized dual-output heralded single photon source based on optical fibers with birefringence,” Optics Express, 21(13) 15364-15372, 2013
[8] Qiang Zhou, Wei Zhang*, Pengxiang Wang, Yidong Huang, and Jiangde Peng, "Polarization entanglement generation at 1.5 μm based on walk-off effect due to fiber birefringence," Optics Letters, 37(8),1679, 2012.
[9] Qiang Zhou, Wei Zhang*, Jierong Cheng, Yidong Huang, Jiangde Peng, “Noise performance comparison of 1.5 μm correlated photon pair generation different fibers,” Optics Express, 18(16), 17114, 2010. 
[10] Wei Zhang*, Qiang Zhou, Jierong Cheng, Yidong Huang and Jiangde Peng, “Impact of fiber birefringence on correlated photon pair generation in highly nonlinear microstructure fibers,” European Physical Journal D, [11] Qiang Zhou, Wei Zhang*, Jierong Cheng, Yidong Huang, Jiangde Peng, “Polarization entangled Bell states generation based on birefringence in high nonlinear microstructure fiber at 1.5 μm,” Optics Letters, 34(15), 2706, 2009. 

新型微结构光子器件和光纤方向
[1] Chenzhi Yuan, Wei Zhang*, Yidong Huang, “Photothermal effect in graphene-coated microsphere resonators,” Applied Physics Express, 11, 072503, 2018
[2] Yanfen Zhai, Renduo Qi, Chenzhi Yuan, Wei Zhang*, Yidong Huang, “High-quality chalcogenide glass waveguide fabrication by hot melt smoothing and micro-trench filling,” Applied Physics Express, 9,052201, 2016
[3] Yanfen Zhai, Renduo Qi, Chenzhi Yuan, Shuai Dong, Wei Zhang*, Yidong Huang, “Single-Polarization Waveguiding by Low-Index Strips on the Surface of Chalcogenide Glass Film,” IEEE Photonics Journal, 8, 2700709, 2016
[4] Chenzhi Yuan&*, Wei Zhang, Yidong Huang, Jiangde Peng, “Slow light enhanced atomic frequency comb quantum memories in photonic crystal waveguides,” European Physical Journal D, 70,185, 2016
[5] Mingfei Xiao, Jing Liu, Wei Zhang*, Jingling Shen, Yidong Huang, Jiangde Peng “Self-supporting polymer pipes for low loss single mode THz transmission,” Optics Express, 21(17) 19808-19815, 2013
[6] Mingfei Xiao, Jing Liu, Wei Zhang*, Jingling Shen, Yidong Huang, “THz wave transmission in thin-wall PMMA pipes fabricated by fiber drawing technique,” Optics Communications, 298 101-105, 2013
[7] Lichao Shi, Wei Zhang*, Jie Jin, Yidong Huang and Jiangde Peng, “Multi-Wavelength Transmission of Hollow-Core Bragg Fiber With Modified Binary One-Dimensional Photonic Crystal Cladding,” Journal of Lightwave Technology, 30(10), 1492, 2012.
[8] Yan Huang, Wei Zhang*, Xue Feng, Yidong Huang and Jiangde Peng, “Bi-directional dual-wavelength Brillouin lasing in a hybrid fiber ring cavity,” Optics Communications, 82 (14), 2990-2994, 2009
[9] Yin Wang&*, Wei Zhang, Yidong Huang, and Jiangde Peng, “Stimulated Brillouin scattering slow light in high nonlinearity silica microstructure fiber,” Optical Fiber Technology: Materials, Devices and Systems, 15 (1), 1-4 , 2009
[10] Wen Wang, Wei Zhang*, Wenxin Xing, Lichao Shi, Yidong Huang and Jiangde Peng, “A novel 3-D microcavity based on bragg fiber dual-tapers,” IEEE Journal of Lightwave Technology, 27 (18), 4145-4150, 2009


                     

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