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Lingyun XieMore

  • Title:Postdoctoral Researcher
  • Tel:21310075@tongji.edu.cn
  • Office:Optics Building
  • Information of Tutors:

Xie Lingyun is a postdoctoral researcher at the School of Electronic and Information Engineering, Tongji University. Her primary research focuses on micro-nano devices, with a special emphasis on laser thin films, multilayer dielectric gratings, and strong laser field control. She has published 8 articles as the first author or co-first author/corresponding author in internationally and domestically renowned journals, including Optica, Optics Express, Optics Letters, Micromachines, Applied Optics, and High Power Laser and Particle Beams. Additionally, She has been granted one national invention patent. She has received support from the National Natural Science Foundation of China (NSFC) Young Scientists Fund and has also been awarded the "Super Postdoctoral Fellowship" sponsored by Shanghai in 2021.

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Work Experience:

(1) April 2021 - Present: Postdoctoral Researcher, Tongji University


Education:

(1) September 2017 - March 2021: Ph.D. in Optics, Tongji University

(2) September 2014 - March 2017: Master's Degree in Optics, Tongji University

(3) September 2010 - June 2014: Bachelor's Degree in Optical Information Science and Technology, Nanjing University of Information Science and Technology


Laser thin films, multilayer dielectric gratings, and strong laser field control in micro-nano structured optical fields.

None

(1) National Natural Science Foundation of China (NSFC) Young Scientists Fund

Publications:


(1)Lingyun Xie; Jinlong Zhang*; Zhanyi Zhang; Bin Ma; Tongbao Li; Zhanshan Wang; Xinbin Cheng; Rectangular multilayer dielectric gratings with broadband high diffraction efficiency and enhanced laser damage resistance, Optics Express[J], 2021, 29(2): 2669-2678

(2)Siyu Dong†; Zhanyi Zhang†; Lingyun Xie† ;Jingyuan Zhu; Haigang Liang; Zeyong Wei; Yuzhi Shi;Alexander V. Tikhonravov; Zhanshan Wang*;Lei Zhou*;Xinbin Cheng*;Broadband depolarized perfect Littrow diffraction with multilayer freeform metagratings," Optica[J],2023,10(5) : 585-593

(3)Hongguang Qi†; Lingyun Xie†;Jingyuan Zhu†; Zeyong Wei*; Hongfei Jiao; Yury Gennadievich Smirnov; Alexander Tikhonravov; Zhanshan Wang; Xinbin Cheng; High-efficiency, polarization-insensitive 1400-lines/mm retroreflective metagrating with cascaded nano-optical modes [J]. Optics Letters, 2022, 47(16): 3972-5

(4)Linyuan Dou; Lingyun Xie*; Zeyong Wei*; Zhanshan Wang; Xinbin Cheng ; On-Chip Optical BeamManipulation with an Electrically Tunable Lithium-Niobate-on-Insulator Metasurface, Micromachines[J], 2022, 13(3): 472

(5)Lingyun Xie; Huasong Liu; Jun Zhao; Hongfei Jiao; Jinlong Zhang; Zhanshan Wang; Xinbin Cheng ; Influence of dry etching on the properties of SiO2 and HfO2 single layers, Applied Optics[J],2020, 59(5): A128-A134

(6)Lingyun Xie; Tao He; Jinlong Zhang; Hongfei Jiao; Bin Ma; Zhanshan Wang; Xinbin Cheng ; Improvement to the LIDT of high-reflection coatings by planarization of nodular defects, Advancesin Optical Thin Films VI, Frankfurt, Germany, 2018-5-14至2018-5-17



Authorized Patent:


Inventors: Cheng Xinbin; Xie Lingyun; Zhang Zhanyi; Wang Zhanshan

Patent Title: Method for Fabricating High Damage Threshold Multilayer Dielectric Membrane Rectangular Diffraction Gratings

Date of Authorization: December 7, 2020

Region: China

Patent Number: 202011420469.2


The "Super Postdoctoral Fellowship" sponsored by Shanghai,2021.

©2022 Institute of Precision Optical Engineering TechnologyBeijingicp bei 05051632-16

Copyright: Institute of precision optical engineering technology, Tongji University

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Tel: +86-21-65984652

Address: 1239 Siping Road, Shanghai, P.R. China

E-mail: 1986jiangli@tongji.edu.cn