简介：
研究员，博士生导师，IEEE 高级会员(Senior Member)，研究方向主要为集成电路设计，物理电子学，包括光电成像系统，探测器低噪声读出系统，物理实验的数据获取系统，数据高速的高速数字化，数据的实时处理以及数据的高速传输，及相关的ASIC设计技术。针对制约光电系统的关键部件科学级相机在国内研制的短板，在光学红外光电探测领域发展了一系列自主技术，解决了科学级CCD相机研制中低噪声读出，红外天光背景测量中微弱红外信号低噪声高增益读出，量子保密通讯中高速信号发射和探测，实时密钥生成，以及望远镜自主观测和远程控制等难题，研制完成系列科学级CCD相机，成功完成首个自主研制的南极科学级CCD相机并应用在中国之星小望远镜阵升级版CSTAR2上；研制完成首个自主研制的红外天光背景仪并成功部署在南极昆仑站；针对LAMOST完成首个大型望远镜观测控制系统；完成多个南极望远镜和设备的自主观测和远程控制；相关项目以主要参与人多次获得年度十大天文科技进展以及中国十大科技进展新闻，安徽省科技进步一等奖。
主持和参与国家大科学工程子课题，863高科技计划子课题，科技部973子课题，国家自然科学基金，双一流学科建设等项目的研发，并多次到日本KEK, 美国Fermi Lab, APO, UCSC，SMU，BNL，CERN, AAO等国际著名实验室和高校进行访问学习。目前完成自然科学基金三项，在研自然科学基金两项。参与和主持经费为2700多万元。
申请11项国家专利，授权7项，在国内外核心杂志上已发表论文130余篇，其中SCI，EI检索71篇，第一和通讯作者53篇。

荣誉：
1.IEEE 高级会员(Senior Member)
2.2018年安徽省科技进步一等奖
3.2015年十大天文科技进展
4.2014年中国十大科技进展新闻
5.2010．张宗植青年教师奖
6.2005年获中国科学院王宽诚博士后工作奖励基金
7.2002年获得中国电子学会的年度受奖论文，2003年获得中国电子学会、中国核学会核电子学与探测技术分会的年度优秀论文
代表性论文：
[1]Guangyu Zhang, Quan Sun, Tiankuan Liu, Datao Gong, Bihui You, Le Xiao, Xiangming Sun, Jingbo Ye, Dongxu Yang, Yi Feng, Jian Wang*, Study of Full Parallel RS(31,27) Encoder for a 3.2 Gbps Serial Transmitter in 0.18 um CMOS Technology, JOURNAL OF INSTRUMENTATION, Volume 14, February 2019. https://doi.org/10.1088/1748-0221/14/02/P02028
[2]Dongxu Yang, Szymon Kulis, Datao Gong, Jingbo Ye, Paulo Moreira,Jian Wang*, A High-Resolution Clock Phase-Shifter in a 65 nm CMOS Technology. In: Liu ZA. (eds) Proceedings of International Conference on Technology and Instrumentation in Particle Physics 2017. TIPP 2017. Springer Proceedings in Physics, vol 212. Springer, Singapore, 08 August 2018
[3]Dong-xu Yang, Jian Wang*, Yi Feng, Qi-jie Tang, Hong-fei Zhang, Teng-yun Chen, A FPGA-Based Energy Measurement Approach for High-Repetition Rate Narrow Laser Pulses, IEEE Transactions on Nuclear Science , VOL. 65, NO. 9,2665 – 2669，SEPTEMBER 2018.
[4]Qi-Jie Tang, Jian Wang?, Shu-cheng Dong, Jin-ting Chen, Yi-hao Zhang, Feng-xin Jiang, Zhi-yue Wang, Ya-qi Chen, Jie Chen, Hong-fei Zhang, Qing-feng Zhu, Peng Jiang*, Tuo Ji , Shao-hua Zhang, Yong-qiang Yao, Yun-he Zhou, Hong-shuai Wang, Peng Tang, Design of a near-infrared sky brightness monitor and field measurement at the Ngari observatory, Tibet, Journal of Astronomical Telescopes, Instruments, and Systems, 4(4), 046002 (2018), doi: 10.1117/1.JATIS.4.4.046002..
[5]Shu-cheng Dong, Jian Wang,?, Qi-Jie Tang, Feng-xin Jiang , Jin-ting Chen, Yi-hao Zhang, Zhi-yue Wang, Jie Chen,Hong-fei Zhang, Hai-jiao Jiang, Qing-feng Zhu*, Peng Jiang, Tuo Ji，Design of a Multiband Near-infrared Sky Brightness Monitor Using an InSb Detector, Review of Scientific Instruments, 89(2):3107, 2018.
[6]Ming-hao Jia, Ya-qi Chen, Guang-yu Zhang, Peng Jiang, Hongfei Zhang,Jian WANG*, A Web Service Framework for Astronomical Remote Observation in Antarctica using Satellite Link, Astronomy and Computing, Volume 24, July 2018, Pages 17-24.
[7]SE Jie Chen, Jian Wang*, Shucheng Dong, Fengxin Jiang, Minghao Jia, Hongfei Zhang, A Heating System of Shutter House for the Antarctic Bright Stars Survey Telescope, Journal of Astronomical Telescopes, Instruments, and Systems, 3(1), 015001 (2017), doi: 10.1117/1.JATIS.3.1.015001.
[8]Hong-fei Zhang, Jian-min Wang, Qi-jie Tang, Yi Feng, Dong-xu Yang, Jie Chen, Sheng-zhao Lin,Jian Wang*, Design of ultra-low noise and low temperature usable power system for high-precision detectors, IEEE Transactions on Nuclear Science, 63(6), pp.1-7, DECEMBER.2016, doi: 10.1109/TNS.2016.**.
[9]Qi-jie Tang, Dong-xu Yang, Jian Wang*, Yi Feng, Hong-fei Zhang and Teng-yun Chen, Real-time energy measurement of high repetition rate ultrashort laser pulses using pulse integration and FPGA processing, Rev. Sci. Instrum. 87, 114708 (2016);
[10]Guang-yu Zhang,Jian WANG*, Peng-yi Tang, Ming-hao Jia, Jie Chen, Shu-cheng Dong, Fengxin Jiang, Wen-qing WU, Jia-jing Liu, Hong-fei Zhang, An Autonomous Observation and Control System Based on EPICS and RTS2 for Antarctic Telescopes, Monthly Notices of the Royal Astronomical Society, MNRAS (January 11, 2016) 455 (2): 1654-1664.
[11]Ke CUI,Jian WANG*, Hong-fei ZHANG, Sheng-zhao LIN, Dong-xu YANG, Teng-yun CHEN, An authentication scheme with high throughput based on FPGA for a practical QKD system, Optik - International Journal for Light and Electron Optics, Volume 126, Issue 23, December 2015, Pages 4747–4750,
[12]Jian-min Wang, Tian-yu Xie, Hong-fei Zhang, Dong-xu Yang, Chao Xie and Jian Wang*, A bias-free quantum random number generation using photon arrival time selectively, IEEE Photonics Journal,Volume:7 , Issue: 2. 2015, **，DOI:10.1109/JPHOT.2015.**
[13]Sheng-zhao LIN, Hong-fei ZHANG, Jian-min WANG, Dong-xu Yang, Ke Cui andJian WANG*, A generic reconfigurable system with high-speed data transmission and high-precision time measurement applied to a quantum bit commitment experiment, IEEE Transactions on Nuclear Science, VOL. 62, NO. 3, JUNE 2015,pp1027-1032. DOI:10.1109/TNS.2015.**
[14]Hong-fei ZHANG, Jian WANG*，Ke CUI, Chun-li LUO, LIN Sheng-zhao, ZHOU Lei, LIANG Hao, CHEN Teng-yun, CHEN Kai, PAN Jian-wei, A real-time QKD system based on FPGA，IEEE/OSA Journal of Lightwave Technology, Vol. 30, Issue 20, pp. 3226-3234 (2012)
[15]Ke CUI,Jian WANG*,Hong-fei ZHANG, Chun-li LUO, Ge JIN, Teng-yun CHEN, A real-time design based on FPGA for Expeditious Error Reconciliation in QKD system, IEEE transactions on Information Forensics and Security, Vol. 8, Issue 1, pp. 184-190 (2013)
[16]Jian WANG,Jia-jin Liu, Peng-yi Tang, Min-cheng LUO, Wen-qing WU, Guang-yu Zhang, Ge JIN, Xiao-chao Deng, A Study on Generic models of Control Systems of Large Astronomical Telescopes, Publications of the Astronomical Society of the Pacific, Vol. 125, No. 932 (October 2013), pp. 1265-1276.
[17]Jian WANG, Min-cheng LUO, Wen-qing WU, Lia-jin Liu, Peng-yi Tang, Li-chun Zhu,Ge JIN，Study of Central Control System for FAST，Experimental Astronomy，Volume 36, Issue 3 (2013), Page 569-589, DOI:10.1007/s10686-013-9345-2
[18]Jian WANG,Ke CUI, Chun-li LUO, Hong-fei Zhang, Lei ZHOU, Teng-yun CHEN, Hao LIANG，Ge JIN, Design of High-repetition Rate Photon Source in Quantum Key Distribution System, Sci China Info Sci,2013, 56: 092305(7), doi: 10.1007/s11432-012-4671-y