Research

Kai OuMore

  • Title:Assistant Professor
  • Tel:kaiou211122@tongji.edu.cn
  • Office:Optics Building
  • Information of Tutors:Master

Prof. Kai Ou’s interests mainly focus on developing the theory of multi-dimensional manipulation of vectorial light field based on micro-nano structures, and experimental characterization of photonic and meta-optical devices. He and his collaborators propose new concepts of multi-dimension regulation of mid-infrared meta-optics. His research has published in Science Advances, Light: Science & Applications, Materials Today, Laser & Photonics Reviews, Nanoscale, etc. Dr. Ou has won the President's Excellence Award of Chinese Academy of Sciences in 2021. He is a reviewer of optics authoritative journals such as Optics and Laser Technology, Optics Letters, Optics Express, etc.

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

Academic appointment

Jun. 2021– Present,Assistant Professor of School of Physical Science and Engineering, Tongji University,


Education

Sep. 2016 - Jun. 2021, Doctor of Philosophy in Microelectronics and Solid Electronics,Shanghai Institute of Technical Physics, Chinese Academy of Sciences

Sep. 2007- July. 2011, BS of applied physics, Zhengzhou University


Developing the theory and technology for on-chip optical multidimensional regulation and intelligent sensing applications, and carrying out innovative research on the spatio-temporal light field regulation theory and experimental characterization technology via multi-layer micro-nano structures and metasurfaces. Specifically, constructing the vector light field regulation theory of complex microstructure system and excavating the physical mechanism of light-microstructure interaction; exploring the potential applications of light manipulation technology base on micro-nano structure in photoelectric detection, nanoscale light source, biological detection, etc.

《Optical electromagnetic theory》

《Micro-nano optics and photonics》


National Natural Science Foundation, Youth project(2023)

National Natural Science Foundation, General project(2019)


Publications

1. Kai Ou#, Feilong Yu#, Guanhai Li*, Wenjuan Wang, Andrey E. Miroshnichenko*, Lujun Huang, Peng Wang, Zhifeng Li, Tianxin Li, Xiaoshuang Chen*, and Wei Lu, Mid-infrared polarization-controlled broadband achromatic metadevice, Science Advances, 6(37), eabc0711(2020).

2. Kai Ou#, Feilong Yu#, Guanhai Li*, Wenjuan Wang, Jin Chen, Andrey E. Miroshnichenko*, Lujun Huang, Zhifeng Li, Tianxin Li, Xiaoshuang Chen*, and Wei Lu, Broadband Achromatic Metalens in Mid-Wavelength Infrared, Laser& Photonics Reviews, 15, 202100020(2021).

3. Hui Yang #, Kai Ou#, Hengyi Wan, Yueqiang Hu*,Zeyong Wei, Honghui Jia, Xinbin Cheng, Na Liu, and Huigao Duan*,  “Metasurface-empowered optical cryptography”, Materials Today, (2023).


4. Hui Yang, Peng He, Kai Ou, Yueqiang Hu*, Yuting Jiang, Honghui Jia, Zhenwei Xie*, Xiaocong Yuan, and Huigao Duan*, Angular Momentum Holography via a Minimalist Metasurface for Optical Nested Encryption, Light: Science & Applications (2023).


5. Kai Ou*, Hengyi Wan, Guangfeng Wang, Jingyuan Zhu, Siyu Dong, Tao He, Hui Yang , Zeyong Wei*, Zhanshan Wang and Xinbin Cheng*,Advances in Meta-optics and Meta-devices: Fundamentals and Applications,Nanomaterials, (特邀, 2023).


6. Kai Ou, Guanhai Li*, Tianxin Li, Hui Yang, Feilong Yu, Jin Chen, Zengyue Zhao, Guangtao Cao, Xiaoshuang Chen*, and Wei Lu, High efficiency focusing vortex generation and detection with polarization-insensitive dielectric metasurfaces, Nanoscale, 10(40), 19154-19161(2018).


7. Cheng Cheng, Kai Ou*, Hui Yang*, Hengyi Wan, Zeyong Wei, Zhanshan Wang and Xinbin Cheng, Electric-Driven Polarization Meta-Optics for Tunable Edge-Enhanced Images, Micromachines, 13, 541(2022).


8. Hui Yang, Yuting Jiang, Yueqiang Hu, Kai Ou, and Huigao Duan, Non-interleaved Metasurface for Full-Polarization Three-Dimensional Vectorial Holography, Laser& Photonics Reviews, Accepted(2022).


Patent

Multi-channel focusing vortex beam generator based on all-dielectric metasurface (CN209148978U)


2021, President's Excellence Award of Chinese Academy of Sciences

2021, Shanghai outstanding graduate

2020, Chinese National Scholarship for doctoral students

2020, First-class scholarship of Chinese Academy of Sciences