王坚

导师介绍

姓名

王坚


 
工作单位

中国科学技术大学先进技术研究院/中国科学技术大学物理学院

学位/职称

博士/副教授/博导

办公室电话

0551-63603177

Email

wangjian@ustc.edu.cn

教育背景

1994年进入中国科技大学学习,2003年在中国科技大学获得博士学位,IEEE 高级会员(Senior Member)

研究方向

研究方向主要为科学仪器,物理电子学,核电子学,集成电路设计,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。

任职经历

(1) 2018.7-2018.8, 澳大利亚Macquarie University, 物理与天文系, Visiting Associate Professor

(2) 2016.2-2017.6, 美国Southern Methodist University, 物理系, Visiting Senior Research Associate

(3) 2006.1-2006.2, 日本高能加速器研究组织, 加速器控制组, 访问学者

(4) 2006.10-2006.12, 日本高能加速器研究组织, 加速器控制组, 访问学者

(5) 2005.12-至今, 中国科学技术大学, 物理学院近代物理系, 副教授

(6) 2003.7-2005.12, 中国科学技术大学, 物理学院近代物理系, 讲师

(7) 2003.9-2005.12, 中国科学技术大学, 博士后

获得荣誉、奖项

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

主持、参与项目

1. 大视场巡天望远镜拼接式大相机的研制,2018-2021,中国科技大学双一流学科建设科学大装置项目

2. CSTAR2相机及远程自主控制系统,2018-2019,紫金山天文台

3. 面向南极大型天文望远镜的自主观测和自主控制关键技术的研究,2018-2021,自然科学基金项目面上

4. 多波段红外天光测量系统中关键技术的研究 ,中科院天文光学技术重点实验室2017年开放课题,2018-2019,

5. 用于高能物理实验的高精度时间数字转换芯片的研究, 自然科学基金项目海外及港澳学者合作研究基金,2018-2019

6. CCD低温测试装置,中科院仪器设备升级改造,2017-2019

7. 多波段近红外天光测量系统中关键技术的研究,2016-2017,核探测与核电子学国家重点实验室自主研究课题

8. 红外天光光谱仪及控制系统 2015.06-2016.10 中国极地研究中心  

9. 科学级成像系统中高速数字化方法及系统高性能技术的研究 2013.01-2016.12 自然科学基金

10. 科学级CCD探测器电子学读出处理系统中关键技术研究 2015.01-2017.12 中央高校基本科研业务费 中国科学技术大学重要方向项目培育基金

11. 微弱信号探测器低噪声高精度读出系统的研究 2015.07-2017.06 . 安徽省自然科学基金委 . 安徽省自然科学基金面上项目

12. 基于可重构技术的天文仪器前端数据获取平台的研究 2013.01-2013.12 中央高校科研专项基金

13. 南极亮星巡天望远镜CCD相机和远程控制系统 2013.12-2014.12 中国极地研究中心

14. FAST望远镜总控构架设计与模型试验 2011.04-2012.03 国家大科学工程

论文、著作

[1] Yi Feng, Hong-fei Zhang, Jian Wang*, Yi-ling Xu, Jin-ting Chen, Dong-xu Yang, Yi Zhang, Cheng Chen, Guang-yu Zhang, Jian-min Wang, Jie Chen,Design of a Non-vacuum-cooling Compact CCD Camera for Scientific Detection, IEEE Transactions on Nuclear Science, accepted.

[2] Hong-fei Zhang, Cheng Chen, Jian Wang *, Ya-qi Chen, YI Zhang, Yi Feng , Qi-jie Tang, Dong-xu Yang, Guang-yu Zhang, Jie Chen,  A Scientific CCD camera for CSTAR2 telescope in Antarctica, Journal of Astronomical Telescopes, Instruments, and Systems, accepted.

[3] Jian Wang, Yi Feng, Hong-fei Zhang , Qi-jie Tang, Yi Zhang, Ya-qi Chen, Cheng Chen, Ming-hao Jia, Guang-yu Zhang, Jie Chen, Design of a scientific CCD camera with a large focal plane of 4k x 4k pixels for BSST telescope in Antarctica, JOURNAL OF INSTRUMENTATION, JINST Volume 14 C05014(May 2019).

[4] Jie Gao , Dong-xu Yang , Jian Wang* , Yi Feng , Guang-yu Zhang , Wen-qing Qu , Jia-geng Liu , Yi Zhang, Ya-qi Chen, Hong-fei Zhang, Design and test of driver and readout ASICs for scientific CCD detectors, JOURNAL OF INSTRUMENTATION, Volume 14 C06002, Published 4 June 2019.

[5] Guangyu Zhang, Chi-Ting Chiang, Chris Sheehy, Anže Slosar, Jian Wang*, Predicting CMB dust foreground using galactic 21 cm data, Prepared for submission to JCAP, https://arxiv.org/abs/1904.13265

[6] Jian Wang, Yi Zhang, Hong-fei Zhang, Yi Feng, Cheng Chen, Zi-ang Wang, Qi-jie Tang, Guang-yu Zhang, Ya-qi Chen, Design of a simulation and test system for CCD controller, IEEE Transactions on Nuclear Science , doi: 10.1109/TNS.2019.2918170.

[7] Qi-Jie Tang , Jian Wang*, Yi-hao Zhang , Shu-cheng Dong , Jin-ting Chen , Feng-xin Jiang , Zhi-yue Wang , Ya-qi Chen , Yi-wu Tang, Jie Chen, Hong-fei Zhang, Detection of a Weak Near-Infrared Signal Using a Digital Orthogonal-Vector Lock-in Amplifier, JOURNAL OF INSTRUMENTATION, Volume 14, P05011, May 2019. https://doi.org/10.1088/1748-0221/14/05/P05011

[8] Zhi-yue Wang, Jian Wang*, Ya-qi Chen, Ming-hao Jia, Guang-yu Zhang, Qi-jie Tang, Jin-ting Chen, Yi-hao Zhang, Jun Zhang, Hong-fei Zhang, Jie Chen, Design of EPICS and Web based Remote Control Software of Near-Infrared Sky Brightness Monitor in Antarctica, IEEE Transactions on Nuclear Science , doi: 10.1109/TNS.2019.2924474.

[9] 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

[10] 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

[11] 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.

[12] 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..

[13] 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.

[14] 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.

[15] 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.

[16] 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.2016.2616167.

[17] 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);

[18] 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.

[19] 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,

[20] 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, 7100808,DOI:10.1109/JPHOT.2015.2402127

[21] Sheng-zhao LIN, Hong-fei ZHANG, Jian-min WANG, Dong-xu Yang, Ke Cui and Jian 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.2015.2413364

[22]  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)

[23] 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)

[24] 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.

[25] 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

[26] 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