Research

Zhanshan WangMore

  • Title:Professor
  • Tel:wangzs@tongji.edu.cn
  • Office:Room 705, Physics Hall
  • Information of Tutors:Doctoral supervisor

Wang Zhanshan, founder of the Institute of Precision Optical Engineering Technology, Dean of the Institute of Advanced Technology, Tongji University, member of the National key Research and development technical expert group; He is a member of the 10th Shanghai Party Congress, a SPIE Fellow of the International Society of Optics and Photonics, a member of the Council of the Chinese Optical Society, and a special professor of Changjiang Scholars of the Ministry of Education. He has published more than 200 SCI papers including Light and Optical Letters, and more than 100 authorized patents. One of them won the 2018 China Patent Gold Medal, earning 38 million yuan. In 2019, he won the second prize of the National Technology Invention Award (ranking 1), the first prize of the Chinese Society of Instrumentation Technology Invention Award (ranking 1) in 2021, and the first prize of the Ministry of Education Technology Invention Award (ranking 1) in 2015.

  • Personal Experience
  • Research Areas
  • Teach Courses
  • Research Project
  • Academic Achievements
  • Honors and Awards

Work experience


April 2001 - present Professor, School of Physical Science and Engineering, Tongji University


From June 2006 to September 2006, he was a visiting professor at the Institute of Applied Optics and Precision Mechanics in Fraunhofer, Germany


May 2000 - April 2001, Researcher, Changchun Institute of Optics and Fine Mechanics, Chinese Academy of Sciences


May 1999 - May 2000, Visiting Scholar, Department of Physics, King's College London, UK


May 1996 - May 1999, Associate Researcher, Changchun Institute of Optics and Fine Mechanics, Chinese Academy of Sciences


August 1988 - August 1991, Assistant researcher, Changchun Institute of Optics and Fine Mechanics, Chinese Academy of Sciences


Educational experience


September 1991 - April 1996, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, PhD in Optics


September 1985 - July 1988, Changchun Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Master of Optics


September 1981 - July 1985, Department of Physics, Nankai University, Bachelor of Physics


Academic appointment

Start time

End time

Part-time situation

Job

2015.12

present

The International Society for Optics and Photonics(SPIE)

Fellow

2012.04

2022.04

Council of Chinese Optical Society

Member of a council

2017.04

2023.04

National Natural Science Foundation Committee of Information Science Department Expert Advisory Committee

Committee member

2020.01

2025.01

Chinese Society of Optical Engineering

Standing director

2009.08

present

Academic Committee of Tianjin Key Laboratory of Optical thin Films

Deputy director

2000.01

present

Optical Precision Engineering

Editorial board member

2000.01

present

Acta Photonica Sinica

Editorial board member

2019.01

present

Acta Optica

Editorial board member

2000.01

present

Journal of Chinese Optics

Editorial board member



He is mainly engaged in high-performance thin film, micro and nano optics, precision imaging, X-ray optics and technology research.

Undergraduate courses: Optics

Start time

End time

Project time

Project source

Major contribution

2022.01

2026.12

Study on failure damage mechanism and structure-activity relationship of superstructure surface of multilayer films under intense laser action

Major project of National Natural Science Foundation of China

Project leader

2021.01

2025.12

Shanghai digital optics advanced scientific research base

Shanghai Education Commission Frontier scientific research base

Project leader

2017.06

2022.12

Semiconductor thin film devices for gravitational wave detection: physical mechanisms and regulatory methods for optical loss and thermal noise

Shanghai Education Commission scientific research innovation

Project leader

2017.01

2022.12

Research on basic technology of high intensity laser devices

National Natural Science Foundation Innovation research Group

Project leader

2018.01

2021.12

Research on key techniques of high resolution nested X-ray imaging telescope

National Natural Science Foundation of China (Cultivation Project)

Project leader

2016.06

2020.12

X-ray nanofocusing Optics (Project)

National key research and development plan of the Ministry of Science and Technology

Project leader

Articles:

1. Tao He, Tong Liu, Shiyi Xiao, Zeyong Wei, Zhanshan Wang*, Lei Zhou*, Xinbin Cheng*, Perfect anomalous reflectors at optical frequencies, Science Advances (2022) 8(9) : eabk3381.

2.Xiaohan Yu, Jing Qian, Dongfeng Qi, Guande Wang, Hongyu Zheng, Quanzhong Zhao*, and Zhanshan Wang*, Femtosecond laser nanoprinting of anisotropic plasmonic surfaces: coloration and anticounterfeiting, Optics Letters (2022) 47 (11) : 2638-2641.

3.Jiangtao Feng, Qiushi Huang*, Runze Qi, Andrey Sokolov, Mewael Sertsu, Xiaowei Yang, Zhong Zhang and Zhanshan Wang*, High reflectivity Co/Mg multilayer working in the broad soft x-ray range of 350-770 eV, Joural of Physics D-Applied Physics (2022) 55 (17) : 175107.

4.Yufei Feng, LiangLiang Du, Qiushi Huang*, Zhengkun Liu, Andrey Sokolov, Runze Qi, Xiaowei Yang, Zhong Zhang, and Zhanshan Wang*, Cr/C lamellar multilayer grating in conical diffraction mounting for beam splitter used in X-ray free-electron lasers, Optics Letters (2022) 47 (6) : 1331-1334.

5.Shengzhen Yi, Haoxuan Si, Ke Fang, Zhiheng Fang, Jiali Wu, Runze Qi, Xiaohui Yuan, Zhe Zhang, and Zhanshan Wang*, High-resolution dual-energy sixteen-channel Kirkpatrick–Baez microscope for ultrafast laser plasma diagnostics, Journal of the Optical Society of America B-Optical Physics (2022) 39(3): A61-A67.

6.Shengzhen Yi, Feng Zhang, Qiushi Huang, Lai Wei, Yuqiu Gu and Zhanshan Wang*, High-resolution X-ray flash radiography of Ti characteristic lines with multilayer Kirkpatrick-Baez Microscope at Shenguang- Update laser facility,High Power Laser Science and Engineering (2021) 9(3): 03000e42.

7.Yufei Feng, Qiushi Huang*, Yeqi Zhuang, Andrey Sokolov, Stephanie Lemke, Runze Qi, Zhong Zhang, and Zhanshan Wang*, Mo/Si lamellar multilayer gratings with high efficiency and enhanced resolution for the x-ray region of 1000–1700eV, Optics Express (2021) 29(9): 13416-13427.

8.Yang Liu, Qiushi Huang*, Runze Qi, Liangxing Xiao, Zhong Zhang, Wenbin Li, Shengzhen Yi and Zhanshan Wang*, Microstructure evolution and hard x-ray reflectance of ultrathin Ru/C multilayer mirrors with different layer thicknesses, Materials Research Express (2021) 8 (2): 026401.

9.Wenbin Li*, Liuyang Pan, Chunlin Wang, Zhe Zhang, Chun Xie, Qiushi Huang and Zhanshan Wang*, Multi-shot damage on Mo/Si multilayer induced by nanosecond EUV radiation,AIP Advances (2021) 11(1): 015201.

10.王占山,黄秋实,张众,伊圣振,李文斌,沈正祥,齐润泽,余俊,极紫外,X射线和中子薄膜光学元件与系统,ACTA OPTICA SINICA (光学学报) (2021) 41(1): 0131001.

11. Evolution of chemical, structural, and mechanical properties of titanium nitride thin films deposited under different nitrogen partial pressure,期刊名称:Results in Physics 19, (2020), 103416

12.Qiushi Huang, Igor V. Kozhevnikov, Andrey Sokolov, Yeqi Zhuang, Tongzhou Li, Jiangtao Feng, Frank Siewert, Jens Viefhaus, Zhong Zhang and Zhanshan Wang*, Theoretical analysis and optimization of highly efficient multilayer-coated blazed gratings with high fix-focus constant for the tender X-ray region, Optics Express (2020) 28(2): 821-845.

13.Yang Yang, Qiushi Huang*, Igor V. Kozhevnikov, Yingyu Liao, Runze Qi, Andrey A. Sokolov, Zhuangzhuang Zhang, Zhuangzhuang Zhang, Zhanshan Wang*, Comparative study of single-layer, bilayer, and trilayer mirrors with enhanced x-ray reflectance in 0.5- to 8-keV energy region, Journal of Astronomical Telescopes Instruments and Systems 6(4), (2020), 044001.

14.Xinbin Cheng, Siyu Dong, Song Zhi, Sebastian Paschel, Istvan Balasa, Detlev Ristau, Zhanshan Wang*, Waterproof coatings for high-power laser cavities, Light: Science & Applications (2019) 8 : 12.

15.Qiushi Huang, Zhiwei Guo, Jiangtao Feng, Changyang Yu, Haitao Jiang*, Zhong Zhang, Zhanshan Wang*, Hong Chen, Observation of a Topological Edge State in the X-ray Band, Laser & Photonics Reviews (2019) 16(3): 1800339.

16.Qiushi Huang, Jiangtao Feng, Tongzhou Li, Xiangmei Wang, Igor V Kozhevnikov, Yang Yang, Runze Qi, Andrey Sokolov, Mewael Giday Sertsu, Franz Schäfers, Wenbin Li, Chun Xie, Zhong Zhang and Zhanshan Wang*, Narrowband lamellar multilayer grating with low contrast MoSi2/Si materials for the soft x-ray region, Journal of Physics D: Applied Physics (2019) 52(19): 195303.

17.Jiangtao Feng, Qiushi Huang, Hongchang Wang, Xiaowei Yang, Angelo Giglia, Chun Xie, Zhanshan Wang*, Structure, stress and optical properties of Cr/C multilayers for the tender X-ray range, Journal of Synchrotron Radiation (2019) 26: 720-728.

18.Yingyu Liao, Zhengxiang Shen, Jun Yu, Qiushi Huang, Kun Wang, Pengfeng Sheng, Runze Qi, Yang Yang, Zhe Zhang, Shenghao Chen, Jie Wang, Zhongliang Li, Charles J. Hailey, Zhanshan Wang*, Performance testing of an x-ray telescope prototype at Shanghai Synchrotron Radiation Facility, Journal of Astronomical Telescopes Instruments and Systems (2019) 5(2): 024005.

19.Zhanshan Wang*, Yingyu Liao, Zhengxiang Shen, Qiushi Huang, Bin Ma, Zhong Zhang, Xiaoqiang Wang, Kun Wang, Jun Yu, Shenghao Chen, Zhenbo Wei, Shuang Ma, Yang Yang, Chun Xie, Vadim Burwitz, Development of imaging x-ray telescopes at Tongji University, Journal of Astronomical Telescopes Instruments and Systems (2019) 5(4): 044010.

20.Liuyang Pan, Runze Qi*, Yufei Feng, Jiaqi Chen, Zhong Zhang, Wenbin Li, Zhanshan Wang*, Effect of nitrogen doping on surface morphology, microstructure, chemical composition and intrinsic stress of nickel thin films deposited by reactive sputtering, Surface & Coatings Technology (2019) 364: 196-203.

21.Runze Qi, Qiushi Huang*,Jiani Fei, Igor V. Kozhevnikov, Yang Liu, Pin Li, Zhong Zhang and Zhanshan Wang*, Evolution of the Internal Structure of Short-Period Cr/V Multilayers with Different Vanadium Layers Thicknesses, Materials (2019) 12(18): 2936.

22.Qiushi Huang, Yang Liu, Yang Yang, Runze Qi, Yufei Feng, Igor V. Kozhevnikov, Wenbin Li, Zhong Zhang, Hui Jiang, Ling Zhang, Aiguo Li, Jie Wang and Zhanshan Wang*, Nitridated Ru/B4C multilayer mirrors with improved interface structure, zero stress, and enhanced hard X-ray reflectance, Optics Express (2018) 26(17): 21803-21812.

23.Jun Yu, Zhengxiang Shen*, Xiaoqiang Wang, Pengfeng Sheng, and Zhanshan Wang*, In situ noncontact measurement system and two-step compensation strategy for ultra-precision diamond machining, Optics Express (2018) 26(23): 30724-30739.

24.Li Jiang, Qiushi Huang, Igor V. Kozhevnikov, Yiyun Yao, Jiangtao Feng, Yufei Feng, Bin Ma, Hongfei Jiao, Hong Chen, Zhong Zhang and Zhanshan Wang, Investigation of natural contamination layer growth on optical substrates, Chinese Physics C (2018) 42(11): 115001.

25.Jun Yu, Zhengxiang Shen, Pengfeng Sheng, Xiaoqiang Wang, Charles J. Hailey, Zhanshan Wang, Ray tracing method for the evaluation of grazing incidence x-ray telescopes described by spatially sampled surfaces, Applied Optics (2018) 57(7): B74-B82.

26.Xudong Xu, Zhengxiang Shen and Zhanshan Wang, Sensitivity coefficient for monitoring residual surface error in plane subaperture stitching interferometry, Measurement Science and Technology (2018) 29(8): 085009.

27.Zhe Zhang, Wenbin Li*, Qiushi Huang , Zhong Zhang, Shengzhen Yi, Liuyang Pan, Chun Xie, Przemyslaw Wachulak, Henryk Fiedorowicz and Zhanshan Wang*, A table-top EUV focusing optical system with high energy density using a modified Schwarzschild objective and a laser-plasma light source, Review of Scientific Instruments (2018) 89(10): 103109.

28.Shengzhen Yi, Zhe Zhang, Qiushi Huang, Zhong Zhang, Zhanshan Wang*, Lai Wei, Dongxiao Liu, Leifeng Cao and Yuqiu Gu, Tandem Kirkpatrick-Baez microscope with sixteen channels for high-resolution laser-plasma diagnostics, Review of Scientific Instruments (2018) 89(3): 036105.

29.Xinbin Cheng, Tao He, Jinlong Zhang, Hongfei Jiao, Bin Ma, Zhanshan Wang*, Contribution of angle-dependent light penetration to electric-field enhancement at nodules in optical coatings, Optics Letters (2017) 42(11) : 2086-2089.

30.Jinlong Zhang, Xiaoqing Bu, Hongfei Jiao, Bin Ma, Xinbin Cheng*, Zhangshan Wang*, Laser damage properties of broadband low dispersion mirrors in sub-nanosecond laser pulse, Optics Express (2017) 25(1) : 305-312.

31.Xinbin Cheng, Zhi Song, Jinlong Zhang, Hongfei Jiao, Bin Ma, Zhan Sui, Zhanshan Wang*, Optimal coating solution for a compact resonating cavity working at Brewster angle, Optics Express (2016) 24(21) : 24313-24320.

32.Xinbin Cheng, Abudusalamu Tuniyazi, Zeyong Wei, Jinlong Zhang, Tao Ding, Hongfei Jiao, Bin Ma, Hongqiang Li, Tongbao Li, Zhanshan Wang*, Physical insight toward electric field enhancement at nodular defects in optical coatings, Optics Express (2015) 23(7) : 8609-8619.

33.Xinbin Cheng, Zhanshan Wang*, Defect-related properties of optical coatings, Advanced Optical Technologies, (2014) 3(1) : 65-90. Invited Review

34.Xinbin Cheng, Abudusalamu Tuniyazi, Jinlong Zhang, Tao Ding, Hongfei Jiao, Bin Ma, Zeyong Wei, Hongqiang Li, Zhanshan Wang*, Nanosecond laser-induced damage of nodular defects in dielectric multilayer mirrors, Applied Optics (2014) 53 : A62-A69.

35.Xinbin Cheng, Jinlong Zhang, Tao Ding, Zeyong Wei, Hongqiang Li, Zhanshan Wang*, The effect of an electric field on the thermomechanical damage of nodular defects in dielectric multilayer coatings irradiated by nanosecond laser pulses, Light: Science & Applications (2013) 2 : e80.

36.Zhanshan Wang, Ganghua Bao, Hongfei Jiao, Bin Ma, Jinlong Zhang, Tao Ding, Xinbin Cheng*, Interfacial damage in a Ta2O5/SiO2 double cavity filter irradiated by 1064 nm nanosecond laser pulses, Optics Express (2013) 21(25) : 30623-30632.

37.Zhanshan Wang, Xinbin Cheng, Jingtao Zhu, Qiushi Huang, Zhong Zhang, Lingyan Chen, Investigation of aperiodic W/C multi-layer mirror for X-ray Optics, Thin Solid Films (2011) 519 (20) : 6712-6715.

38.Xinbin Cheng, Zhengxiang Shen, Hongfei Jiao, Jinlong Zhang, Bin Ma, Tao Ding, Zhanshan Wang*, HfO2/SiO2 high reflectors for 1.064 um high power laser applications, Applied Optics (2011) 50 : C357-C363.

39.Zhanshan Wang, Jingtao Zhu, Baozhong Mu, Zhong Zhang, Fengli Wang, Jing Xu, Wenbin Li, Lingyan Chen, Applications of multilayer Optics, Nuc. Instrum. Methods in Phys. Res. A. (2010) 623(2) : 786-790.

40.XinBin Cheng, ZhanShan Wang*, Zhong Zhang, Fengli Wang, Lingyan Chen, Design of X-ray super-mirrors using simulated annealing algorithm, Optics Communications (2006) 265(1) : 197-206.


Patents:

2021.09.03

一种超高精度多层膜厚度漂移误差的表征方法202010945043.2

第一

2021.09.03

一种提高线型磁控溅射靶枪在大尺寸平面基底上镀膜厚度均匀性的方法202010913247.8

第一

2021.09.03

一种双波段、双视场共口径红外自由曲面棱镜光学系统202010593406

第一

2021.05.11

一种带衍射面的超薄四反红外取景器光学系统201910717176.1

第一

2021.05.11

基于自由曲面棱镜的双波段、双视场紧凑型红外取景器光学系统202010593410.7

第一

2021.03.26

具有在线检测功能的立方体反射镜超精密车削加工方法201910665874.1

第一

2020.11.27

一种嵌套式分段型类Wolter-I型结构及其设计方法201810246012

第一

2020.10.02

一种X射线宽光谱三层膜反射镜结构设计方法201811440099.1

第一

2020.08.18

一种超精密车削加工自由曲面棱镜的方法201910827905.9

第一

2020.06.02

一种用于板条激光器谐振腔全反射面的薄膜结构201710855096.3

第一

2019.10.01

基于两步在线检测和补偿技术的自由曲面加工方法和装置201711078560.9

第一

2019.09.27

一种嵌套式类Wolter-I型望远镜性能评价方法201711145347.5

第一

2019.06.11

X射线聚焦望远镜紧凑嵌套式平面正交型结构及设计方法201710426532.5

第一

2019.03.29

一种提高线型磁控溅射靶枪在凹形柱面基底镀膜质量的方法201710247339.5

第一

2019.03.29

一种双功能柱对称大尺寸高均匀性线型磁控靶镀膜设备201710247265.5

第一

2019.01.25

一种圆锥-双曲嵌套式X射线天文望远镜结构的设计方法201610118223.7

第一

2019.01.25

一种提高光学表面轮廓仪检测精度和有效分辨频率的方法201610827114.2

第一

2018.10.26

一种X射线宽光谱多层膜闪耀光栅设计方法201610216319.7

第一

2018.10.26

一种LBO晶体表面镀膜前的清洗方法201710070731.7

第一

2018.08.24

一种LBO晶体的刻蚀清洗方法201710070815

第一

2018.07.27

一种八通道Kirkpatrick-Baez显微镜的精密装配方法201610874398

第一

2018.06.26

一种极紫外高反射率钯/钇多层膜反射镜的制备方法201511026931.X

第一

2018.06.05

一种光学元件化学湿法清洗后的干燥装置和工艺201510764278

第一

2018.05.08

一种基于晶体氧化剂的LBO晶体抛光方法201710070742.5

第一

2018.02.09

一种氟化钙晶体的离子束刻蚀装置及方法201710070733.6

第一

2017.12.26

一种高功率激光薄膜元件用超光滑光学基板表面检测方法201510585072.1

第一

2017.11.07

面向透射型光学基板中吸收性缺陷深度位置的检测方法201510344616.5

第一

2017.07.18

一种超声波-兆声波复合频率全自动光学元件清洗装置201510598106

第一

2017.05.24

一种利用高纯气体混合搅拌的微米亚微米抛光液精选方法201510644692.8

第一

2017.04.05

一种X射线层状多层膜闪耀光栅结构及其制作方法201510078918.2

第一

2017.02.22

一种激光损伤阈值标定方法201410534973.3

第一

2017.02.22

一种双通道复合波长红外激光雷达发射系统光学镜头201410828917

第一

2017.02.08

一种基于人工缺陷的激光薄膜定量化研究方法201410050186.1

第一

2017.01.25

一种面向激光薄膜内部缺陷的溯源性损伤阈值测量技术201410050368.9

第一

Time

Honors and Awards

Rank

2021.08

The First Prize of Technical Invention of China Instrumentation Society in 2021 - Technology and application of large-size and high-efficiency extreme ultraviolet and X-ray thin film devices

first

2019.12

Second Prize of National Technical Invention in 2019 - Multi-functional strong laser thin film device design and full process production technology and application

first

2018.12

2018 China Patent Gold Award - A laser film preparation method

first

2016.12

Second Prize of National Technical Invention in 2016 - Colorless direct display X-ray microscopic imaging technology

first

2016.02

The First Prize of Technical Invention of the Ministry of Education in 2015 - Key technologies and applications of laser thin film devices with high damage threshold

first

2011.11

The second prize of Shanghai Technology Invention Award in 2011 - Extreme ultraviolet and Soft X-ray polarization measurement technology

first