Research Team

Faculty

Xinbin ChengMore

  • Title:Professor
  • Tel:chengxb@tongji.edu.cn
  • Office:North Mechanics Building (Optics Building)
  • Information of Tutors:Doctoral supervisor

Xinbin Cheng, doctoral supervisor and professor at the School of Physical Science and Engineering, Tongji University, is also the director of the Institute of Precision Optical Engineering Technology. He was supported by The National Science Foundation for Distinguished Young Scholars and has awarded the National Technology Invention Award (Second Class) as well as the Chinese Patent Gold Award, also achieved the commercialization of laser thin film technology. Mainly engaged in the research of micro-nano intelligent sensing, high-power laser devices and nanometrology. He has undertaken more than ten scientific research projects such as national major science and technology projects, national key research and development programs, and the National Natural Science Foundation of China, and published more than 40 articles as the first or corresponding author in journals such as Science Advances, Light: Science & Applications, Optica, Optics Letters.

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

Work experience

Professor, School of Physical Science and Engineering, Tongji University, Shanghai(12/2015-present)

Associate Professor, School of Physical Science and Engineering, Tongji University(12/2011-12/2015)

Lecturer, School of Physical Science and Engineering, Tongji University(07/2008-12/2011)


Educational experience

Jointly doctoral training program at Kochi Co., Ltd. in Japan(06/2006-01/2008)

Received Ph.D. in Optics from the Department of Physics, Tongji University(09/2004-05/2008)

Received a bachelor's degree in applied physics, Department of Physics, Tongji University(09/2000-06/2004)



Start Time

End Time

Part-time Job

Title

2021.12

2026.12

The 2nd Youth Committee of CHINESE SOCIETY OF MICRO-NANO   TECNOLOGY

Commissioner


2022.1

2023.12

NSFC English JournalFundamental Research

Editorial Board   Member

2021.12

2023.12

JournalOptics and Precision Engineering

Editorial Board   Member

2022.1

2024.12

Journal Laser & Optoelectronics Progress

Editorial Board   Member

2019.4

2024.4

The 6th Council of Mechanical Quantity Measurement   Instrument Federation of China Instrument and Control Society

Executive Director

2021.5

2026.5

The 8th Council of CHINESE SOCIETY FOR MEASUREMENT

Director



Mainly engaged in micro-nano intelligent sensing, high-power laser devices, nanometrology.


Graduate Course: Introduction to Modern Optics

Start Time

End Time

Project Name

Project Source

Major contribution

2020.5

2024.12

High   power/energy laser coatings

National Science   Foundation of China for Distinguished Young Scholars

Project leader

2020.11

2025.12

Ultra-Broadband   High-Efficiency Spectral Components by Harvesting Interlayer

Coupling and   Hybridization of Local Resonances in Quasi Three-dimensional

Sub-wavelength Structures

National Science   Foundation of China

Project leader

2021.6

2022.12

Basics of   designing multilayer coatings with gratings for

modern technology applications

National Science   Foundation of China

Project leader

2016.12

2021.6

Uniform   regulation and measurement of nano reference materials and standard samples

National Key   R&D Program

Project leader

2017.10

2020.8

Nanometer   measurement based on self-traceability characteristics

Science and Technology Commission   of Shanghai Municipality (Major project)

Project leader

2021.4

2023.9

High-efficiency   regulation and application of optical frequency superstructural surface

Science and Technology Commission   of Shanghai Municipality (Basic Research Project)

Project leader


Articles:

[1] T. He, T.Liu, S.Y. Xiao, Z.Y. Wei, Z.S Wang*, L.Zhou*,X.B. Cheng*, “Perfect anomalous reflectors at optical frequencies”, Science Advances 8(9) : eabk3381(2022).

[2] X.Deng, G.L. Dai*, J. Liu, X.K. Hu, D.Bergmann, J. Zhao, R.Z. Tai, X.Y. Cai, Y. Li, T.B. Li,X.B. Cheng*, “A new type of nanoscale reference grating manufactured by combined laser-focused atomic deposition and x-ray interference lithography and its use for calibrating a scanning electron microscope”, Ultramicroscopy 226 : 113293(2021).

[3] X. Dun, H. Ikoma, G. Wetzstein, Z.S. Wang,X.B. Cheng*, Y.F. Peng, L.Rotationally “Symmetric Diffractive Achromat for Full-Spectrum Computational Imaging”, Optica7(8) : 913-922 (2020).

[4] F. Liu, H.F. Jiao, B. Ma, S. Paschelc, I. Balasac, D. Ristauc, Z.S. Wang, J.L. Zhang*,X.B. Cheng*, “Influence of the surface and subsurface contaminants on laser-induced damage threshold of anti-reflection sub-wavelength structures working at 1064 nm”, Optics & Laser Technology127 : 106144 (2020).

[5] J.L. Zhang, S.K. Shi, H.F. Jiao, X. C. Ji, Z.S. Wang, andX.B. Cheng*, “Ultra-broadband reflector using double-layer subwavelength gratings”, Photonics Research 8(3), 426-429 (2020)

[6] T. He, J.L. Zhang, H.F. Jiao, Z.S. Wang,X.B. Cheng*, “Near-infrared broadband Si:H/SiO2multilayer gratings with high tolerance to fabrication errors”, Nanotechnology 31(31) : 315203 (2020).

[7] L.Y. Xie, H.S. Liu, J. Zhao, H.F.Jiao, J.L. Zhang, Z.S. Wang,X.B Cheng*, “Influence of dry etching on the properties of SiO2and HfO2single layers”, Applied Optics 59(5) : A128-A134 (2020).

[8] Z.Y. Zhang, H.G. Liang, T. He, Z.S. Wang,X.B. Cheng*, “Photonic spin Hall effect based on broadband high-efficiency reflective metasurfaces”, Applied Optics 59(5) : A63-A68(2020).

[9] S.Y. Dong , J.L. Zhang , H.F. Jiao, W. Zhang, X.Y. Li, Z.S. Wang and X.B. Cheng*, “Nanopillars assisted multilayer antireflection coating for photovoltaics with multiple bandgaps”, Applied Physics Letters, 115(13): 133106 (2019).

[10]X.B. Cheng, S.Y. Dong, Z. Song, S. Paschel, I. Balasa, D. Ristau and Z.S. Wang, “Waterproof coatings for high-power laser cavities”, Light: Science & Applications, 8(1), 12 (2019).

[11]H.H. Fang, P.S. Wu, P. Wang, Z. Zheng, Y.C. Tang, J.C. Ho, G. Chen, Y.M. Wang, C.X. Shan,X.B. Cheng,*J. Zhang,* and W.D. Hu*, “Global Photocurrent Generation in Phototransistors Based on Single-Walled Carbon Nanotubes toward Highly Sensitive Infrared Detection”, Adv. Optical Mater. 1900597, 1-8, (2019).

[12]L. Zhang, Z.Y. Wei, J.L. Zhang, H.S. Liu, Y.Q. Ji, S. Schröder, M. Trost, Z.S. Wang andX.B. Cheng*, “Quantitative assessment and suppression of defect-induced scattering in low-loss mirrors”,Optics Letters, 43(24),6025-6028 (2018).

[13] X. Deng, J. Liu, L.Zhu, B.W. Zhang, P.F. He,X.B. Cheng*, T.B. Li, “Realization of orthogonality in two-step laser focused Cr atomic deposition”, Optik (2019) 185 : 423-428.

[14]J.L. Zhang, H.F. Jiao, B. Ma, Z.S. Wang, and X.B. Cheng*, “Laser-induced damage of nodular defects in dielectric multilayer coatings”, Optical Engineering ,57(12) ,121909 (2018).

[15]X. Deng*, J. Liu, L. Zhu, P.F. He,X.B. Cheng* and T.B. Li, “Natural square ruler at nanoscale”, Applied Physics Express, 11(7), 075201 (2018).

[16]S.Y. Dong, H.F. Jiao, G.H Bao, J.L. Zhang, Z.S. Wang and X.B. Cheng*,“Origin and compensation of deposition errors in a broadband antireflection coating prepared using quartz crystal monitoring”, Thin Solid Films, 660 ,54-58(2018).

[17] X.R. Wang,X.B. Cheng*, L.F. Zhang, X. Deng, and T.B. Li, “Asymmetric line edge roughness of multilayer grating reference materials”, AIP Advances, 8(3), 035311(2018).

[18]L. Zhang, J.L. Zhang, H.F. Jiao, G.H. Bao,Z.S. Wang and X.B. Cheng*,“Thickness-dependent surface morphology and crystallization of HfO2coatings prepared with ion-assisted deposition”, Thin Solid Films, 642, 359-363 (2017).

[19]F. Liu, S.Y. Dong, J.L. Zhang, H.F Jiao, B. Ma, Z.S. Wang and X.B. Cheng*, “Interface and material engineering for zigzag slab lasers”,Scientific Reports, 7, 16699 (2017).

[20]J.L. Zhang, H. Wu, H.F. Jiao, S. Schroder, M. Trost, Z. S. Wang and X. B. Cheng*, “Reducing light scattering in high-reflection coatings through destructive interference at fully correlated interfaces”,Optics Letters, 42(23), 5046-5049 (2017).

[21]X. B. Cheng, T. He, J.L. Zhang, H.F. Jiao, B. Ma, and Z.S. Wang*, “Contribution of angle-dependent light penetration to electric-field enhancement at nodules in optical coatings”, Optics Letters, 42(11), 2086-2089 (2017).

[22]H. P. Ma,X. B. Cheng*, J. L. Zhang, H. F. Jiao, B. Ma, Y. J. Tang, Z. L. Wu and Z. S. Wang, “Effect of boundary continuity on nanosecond laser damage of nodular defects in high-reflection coatings”, Optics Letters,42(3), 478-481 (2017).

[23]J. L. Zhang X.Q. Bu, H. F. Jiao, B. Ma,X. B. Cheng* and Z. S. Wang*, “Laser damage properties of broadband low dispersion mirrors in sub-nanosecond laser pulse”,Optics Express, 25(1), 305-312 (2017).

[24]L. Zhang,X. B. Cheng*, J. L. Zhang, H. F. Jiao, G. H. Bao, T. Ding, and Z. S. Wang, “Characterization of grain sizes and roughness of HfO2single layers”,Applied Optics, 56(4), C24-C29 (2017).

[25]Z. Song,X. B. Cheng*, H. P. Ma, J. L. Zhang, B. Ma, H. F. Jiao, and Z. S. Wang, “Influence of coating thickness on laser-induced damage characteristics of anti-reflection coatings irradiated by 1064 nm nanosecond laser pulses”,Applied Optics, 56(4), C188-C192 (2017).

[26]X. B. Cheng, Z. Song, J. L. Zhang, H. F. Jiao, B. Ma, Z. Sui, and Z. S. Wang*, “Optimal coating solution for a compact resonating cavity working at Brewster angle”,Optics Express,24(21), 24313-24320 (2016).

[27]H. P. Ma,X. B. Cheng*, J. L. Zhang, B. Ma, H. F. Jiao, Z. S. Wang, T. B. Li, J. Yu, Z. J. Kang, Y. J. Tang, “Electric-field intensity enhancement of a series of artificial nodules in a broadband high-reflection coating”, Optical Engineering,56(1), 011027-011027 (2016).

[28]X. B. Cheng, A. Tuniyazi, Z. Y. Wei, J. L. Zhang, D. Tao, H. F. Jiao, B. Ma, H. Q. Li, T. B. Li, and Z. S. Wang*, “Physical insight toward electric field enhancement at nodular defects in optical coatings”, Optics Express,23(7), 8609-8619 (2015).

[29]X. B. Chengand Z. S. Wang*, “Defect-related properties of optical coatings”,Advanced Optical Technologies, 3 (1), 65-90 (2014).Invited Review

[30]X. B. Cheng, A. Tuniyazi, J. L. Zhang, D. Tao, Z. Y. Wei, H. Q. Li and Z. S. Wang, “Nanosecond laser-induced damage of nodular defects in dielectric multilayer mirrors”, Applied Optics, 53, A62-A69 (2014).

[31]X. B. Cheng, J. L. Zhang, D. Tao, Z. Y. Wei, H. Q. Li and Z. S. 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 ,2, e80 (2013).

[32]Z. S. Wang, G. H. Bao, H. F. Jiao, B. Ma, J. L. Zhang, T. Ding, and X. B. Cheng*, “Interfacial damage in a Ta2O5/SiO2double cavity filter irradiated by 1064 nm nanosecond laser pulses”, Optics Express, 21(25), 30623-30632 (2013).

[33]X. B. Cheng,H. F. Jiao, J. L. Lu, B. Ma, and Z. S. Wang, “Nanosecond pulsed laser damage characteristics of HfO2/SiO2high reflection coatings irradiated from crystal-film interface”, Optics Express,21(12), 14867-14875 (2013).

[34]J. T. Lu,X. B. Cheng, Z. S. Wang, H. S. Liu and Y. Q. Ji “Separation of interface and volume absorption in HfO2single layers”, Optical Engineering, 51, 121814-1-6 (2012) .

[35]X. B. Cheng, Z. X. Shen, H. F. Jiao, J. L. Zhang, B. Ma, T. Ding and Z. S. Wang, “HfO2/SiO2high reflectors for 1.064 um high power laser applications”, Applied Optics 50, C357-C363 (2011) .

[36]X. B. Cheng, B. Fan, J. A. Dobrowolski, L. Wang and Z. S. Wang, “Gradient-index optical filter synthesis with controllable and predictable refractive index profiles”, Optics Express, 16(4): 2315-2321 (2008).

[37]X. B. Cheng, Z. S. Wang, Z. Zhang, F. L. Wang and L. Y. Chen, “Design of X-ray super-mirrors using simulated annealing algorithm”,Optics Communications, 265(1): 197-206 (2006).

Patents:

授权时间

代表性授权专利名称及专利号

排名

2022.2

一种高损伤阈值的多层介质膜矩形衍射光栅制备方法202011420469.2

第一

2021.2

一种基于高反膜的线性位相梯度超表面201910893576.8

第一

2020.7

一种二维原子光刻栅格结构制备方法201810548515.3

第一

2020.6

一种用于实现分步沉积型二维原子光刻的装置201810548512.X

第一

2020.4

一种修正石英监控法制备宽带增透膜沉积误差的方法201710944000.0

第一

2017.10

一种提高近红外高反膜激光损伤阈值的方法201410050291.5

第一

2017.3

一种钕玻璃激光器用背入射式高反薄膜系统的制备方法201610940925.3

第一

2015.6

一种防水性激光薄膜的制备方法201310093167.2

第一

2015.1

一种光学基板亚表面中纳米吸收中心深度分布的检测方法201310090224.1

第一

2020.6

一种用于板条激光器谐振腔全反射面的薄膜结构201710855096.3

第二

2019.9

一种低散射损耗的高反射薄膜201710865078.3

第二

2015.7

一种抑制半波孔的倍频分束薄膜201310108420.7

第二

2014.11

一种激光薄膜的制备方法201210480267.6

第二

2017.1

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

第三

1. 2019 The National Science Foundation of China for Distinguished Young Scholars


2. 2019 The National Technology Invention Award (Second Class)


3. 2018 The China Patent Gold Award


4. 2017 “Shuguang” Program of Shanghai Education Commission


5. 2015 The first-class technical invention award, Ministry of Education


6. 2015 Shanghai Vacuum Youth Innovation Award