Dejiao Hu

2019-11-07


  Dejiao Hu

  Position: Postdoctoral Researcher

  Email: dejiaohu@jnu.edu.cn

  Phone: +86-20-85222046

  Research Interests: Plasmonic color display

                                        Metasurface

                                        Optical Antennas

                                        Chiral Metamaterial


Curriculum Vitae

09.2016-             : Postdoctoral researcher

                             Advisor: Prof. Xiangping Li

                             Research area: Plasmonic color display, Metasurface, Optical Antennas

09.2011-06.2016: PhD. in Diffraction optics and micro-nano-optics, College of Physical Science and

                             Technology, Sichuan University, Sichuan, China

                             Advisor: Jinglei Du

                             Thesis: Research of optical coupling and modulation in nano-resonant structures


Awarded research grants

National Natural Science Foundation of China (Grant 21317137)

Publications

1. Dejiao Hu, Ping Wang, Lin Pang, Fuhua Gao, and Jinglei Du, Pure magnetic resonances controlled by the relative azimuth angle between meta-atoms, Opt. Express 23, 17675-17686, 2015.

2. Dejiao Hu, Ping Wang, Zhiyou Zhang, Lin Pang, Sungwoon Kim and Jinglei Du, Anomalous reflection in the ultra-thin nano-strip antenna induced by incident field and displacement current phase matching, JOSA B 32, 1369-1376, 2015.

3. Dejiao Hu, Zhiyou Zhang and Jinglei Du, Superscattering-enhanced narrow band forward scattering antenna, Chin. Phys. B 24, 104202-104202, 2015.

4. Yu Liu, Dejiao Hu, Lin Pang, Fuhua Gao, Zhiyou Zhang and Jinglei Du, Optoplasmonic probe to realize scanning near-field Raman microscopy, Opt. Express, 24, 5243-5252, 2016.

5. Xiaodong Qiu, Xinxing Zhou, Dejiao Hu, Jinglei Du, Fuhua Gao, Zhiyou Zhang and Hailu Luo, Determination of magneto-optical constant of Fe films with weak measurements, Appl. Phys. Lett. 105, 131111, 2014.

6. Li Huang,Dejiao Hu, Zhiyou Zhang, Fuhua Gao and Jinglei Du, The coupling of angular momentum of light in metal triangles nano-ring, Microelectron. Eng. 121, 139-141, 2014.