Research

Qiushi HuangMore

  • Title:Professor
  • Tel:huangqs@tongji.edu.cn
  • Office:Shanghai West Campus Physics Laboratory
  • Information of Tutors:Doctoral supervisor

Huang Qiushi, Professor of the School of Physical Science and Engineering of Tongji University, national high-level young talents, Shanghai Youth top, Shanghai Youth Science and Technology star, won the first prize of the Chinese Society of Instrumentation Technology Invention Award (ranked second). He is mainly engaged in the research of extreme ultraviolet and X-ray optics. He has undertaken national science and technology major projects, National Natural Science Foundation and other scientific research projects, and published more than 30 articles in Nature Communications, Applied Physics Reviews, Laser & Photonics Reviews and other journals as the first/corresponding author. Eight authorized invention patents. He was a member of the User Expert Committee of the National Synchrotron Radiation Laboratory in Hefei and a member of the PXRNMS Program Committee of the International Conference on X-ray Multilayer Films.

  • Personal Experience
  • Research Areas
  • Teach Courses
  • Research Project
  • Academic Achievements

Educational experience:

2009/3-2012/3, Tongji University, Optics, PhD;

2006/9-2009/3, Tongji University, Optical Engineering, Master;

2002/9-2006/7, Hefei University of Technology, Optical Information Science and Technology, Bachelor.


Work Experience:

2020/12 - Now, Professor, School of Physical Science and Engineering, Tongji University

2017/12-2020/12, Associate Professor, School of Physical Science and Engineering, Tongji University

2014/12-2017/12, Assistant Professor, School of Physical Science and Engineering, Tongji University

2012/9-2014/8, Postdoctoral Fellow, Research Group on Surface Physics of Nanofilms, FEM-Differ Institute, The Netherlands


Academic appointment

Member of User Expert Committee, National Synchrotron Radiation Laboratory (Hefei Light Source) (2019-2023);

Member of the Program Committee of the International Conference Series Physics of X-Ray and Neutron Multilayer Structures (2018-present).


Extreme ultraviolet and X-ray optics

Undergraduate courses: General Physics

Start time

End time

Project name

Project source

Major contributions

2021

2023

Development of X-ray monochromator components for synchrotron radiation and free electron laser

National-level high-level young talents


   


Project leader

2019

2022

Development of X-ray reflector for synchrotron radiation and free electron laser

Shanghai youth science and technology star



Project leader

2018

2021

Development and integrated testing of key technologies for hard X-ray free electron laser - processing, inspection and repair of reflective optical components

Shanghai municipal science and technology major project

Project leader

2016

2020

Study on XXX microstructured multilayer films

A major national science and technology project

Project leader

2021

2024

Development of high efficiency and high resolution tough X-ray multilayer grating for synchrotron radiation and free electron laser

National Natural Science Foundation of China

Project leader






Articles:

1. Feng Yufei, Du LiangLiang, Huang Qiushi, Liu Zhengkun, Sokolov Andrey, Qi Runze, Yang Xiaowei, Zhang Zhong, Wang Zhanshan. Cr/C lamellar multilayer grating in conical diffraction mounting for beam splitter used in X-ray free-electron lasers[J]. Optics letters,2022,47(6). http://dx.doi.org/10.1364/OL.449805

2. Zhang Yunyang, Huang Qiushi, Yan Shuai, Yu Jun, Huang Handan, He Yumei, Luo Hongxin, Liu Zhi, Zhang Zhong, Wang Zhanshan. High-Precision Ion Beam Figuring of X-Ray Plane Mirrors for the Bendable KB Focusing System[J]. Frontiers in Physics,2022,10. http://dx.doi.org/10.3389/fphy.2022.865411

3. Feng Yufei, Huang Qiushi, Zhuang Yeqi, Sokolov Andrey, Lemke Stephanie, Qi Runze, Zhang Zhong, Wang Zhanshan. Mo/Si lamellar multilayer gratings with high efficiency and enhanced resolution for the x-ray region of 1000-1700eV[J]. Optics express,2021,29(9). http://dx.doi.org/10.1364/OE.422483

4. Qiushi Huang, Igor V. Kozhevnikov, Andrey Sokolov, Yeqi Zhuang, Tongzhou Li, Jiangtao Feng, Frank Siewert, Jens Viefhaus, Zhong Zhang, 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, 28(2), 821 (2020).

5. Hangjian Ni, Qiushi Huang, Genchang Liu, Runze Qi, Zhong Zhang, Xiuhong Li, Zhongliang Li, Jie Wang and Zhanshan Wang, Comparative Study of Pd/B4C X-ray Multilayer Mirrors Fabricated by Magnetron Sputtering with Kr and Ar Gas, Materials, 13, 4504 (2020).

6. Huang Qiushi#, Jia Qi#, Feng Jiangtao, Huang Hao, Yang Xiaowei, Grenzer Joerg, Huang Kai, Zhang Shibing, Lin Jiajie, Zhou Hongyan, You Tiangui, Yu Wenjie, Facsko Stefan, Jonnard Philippe, Wu Meiyi, Giglia Angelo, Zhang Zhong, Liu Zhi, Wang Zhanshan, Wang Xi, Ou Xin*, Realization of wafer-scale nanogratings with sub-50 nm period through vacancy epitaxy, Nature Communications, 10, 2437 (2019).

7. Huang Qiushi#, Guo Zhiwei#, Feng Jiangtao, Yu Changyang, Jiang Haitao*, Zhang Zhong, Wang Zhanshan*, Chen Hong, Observation of a Topological Edge State in the X-ray Band, Laser & Photonics Reviews, 13, 1800339, (2019).

8. Huang Qiushi , Medvedev Viacheslav, van de Kruijs Robbert, Yakshin Andrey, Louis Eric, Bijkerk Fred, Spectral tailoring of nanoscale EUV and soft x-ray multilayer optics, Applied Physics Reviews, 4(1): 011104, (2017).

9. Sokolov Andrey*, Huang Qiushi*, Senf Friedmar, Feng Jiangtao; Lemke Stephanie; Alimov Svyatoslav; Knedel Jeniffa; Zeschke Thomas; Kutz Oliver; Seliger Tino; Gwalt Grzegorz; Schaefers Franz; Siewert Frank; Kozhevnikov Igor V; Qi Runze; Zhang Zhong; Li Wenbin; Wang Zhanshan, Optimized highly efficient multilayer-coated blazed gratings for the tender X-ray region, Optics Express, 27(12), 16833-16846, 2019.

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

11. Huang Qiushi , Yi Qiang, Cao Zhaodong, Qi Runze, Loch Rolf A, Jonnard Philippe, Wu Meiyi, Giglia Angelo, Li Wenbin, Louis Eric, Bijkerk Fred, Zhang Zhong, Wang Zhanshan, High Reflectance Nanoscale V/Sc Multilayer for Soft X-ray Water Window Region, Scientific Reports, 7(1): 12929, (2017).

12. Wang Yiwen , Huang Qiushi*, Yi Qiang, Kozhevnikov Igor V, Qi Runze, Zhang Zhong, Wang Zhanshan*, Nitridated Pd/B4C multilayer mirrors for soft X-ray region: internal structure and aging effects , Optics Express, , 25(7): 7749~7760, 2017.

13. Huang Qiushi , Fei Jiani, Liu Yang, Li Pin, Wen Mingwu, Xie Chun, Jonnard Philippe, Giglia Angelo, Zhang Zhong, Wang Kun, Wang Zhanshan*, High reflectance Cr/V multilayer with B4C barrier layer for water window wavelength region, Optics Letters, 41(4): 701~704, 2016.

14. Huang Qiushi , Zhang Jinshuai, Qi Runze, Yang Yang, Wang Fengli, Zhu Jie, Zhang Zhong, Wang Zhanshan, Structure and stress studies of low temperature annealed W/Si multilayers for the X-ray telescope , Optics Express, 24(14): 15620~15630, 2016.

15. Xu Dechao , Huang Qiushi*, Wang Yiwen, Li Pin, Wen Mingwu, Jonnard Philippe, Giglia Angelo, Kozhevnikov Igor V, Wang Kun, Zhang Zhong, Wang Zhanshan*, Enhancement of soft X-ray reflectivity and interface stability in nitridated Pd/Y multilayer mirrors, Optics Express, 23(26): 33018~33026, 2015.

Patents:

Grant Date

Patent name and Patent Number

Rank

2019.3

The invention relates to a method for improving the coating quality of a linear magnetron sputtering target gun on a concave cylinder base

ZL201710247339.5

2

2019.1

The invention relates to a method for improving the detection accuracy and the highest effective resolution frequency of an optical surface profiler

ZL201610827114.2

3

2018.6

The invention relates to a method for preparing palladium/yttrium multilayer mirror with high reflectivity in extreme ultraviolet

ZL201511026931.X

2

2019.12

The invention relates to a preparation method of ruthenium/boron carbide multilayer mirror for monochromators

ZL201810167868.9

1

2019.3

The invention relates to a dual-function column symmetric large-size and high-uniformity linear magnetic control target coating device

ZL201710247265.5

2

2017.4

The invention relates to the structure of an X-ray layered multifilm blazed grating and a fabrication method thereof

ZL201510078918.2

2

2018.10

The invention relates to the structure of an X-ray layered multifilm blazed grating and a fabrication method thereof

ZL201610216319.7

2