张顺平

Supervisor of Doctorate Candidates  

E-Mail:

Date of Employment:2014-12-04

School/Department:物理科学与技术学院

Administrative Position:物理系副主任

Education Level:研究生毕业

Business Address:物理学院新楼D-211

Gender:Male

Contact Information:027-68752481转8055

Alma Mater:中国科学院物理研究所

Discipline:Optics


Research Focus

(一)纳米光学:研究深亚波长尺度下光与物质相互作用的基本规律,特别是极小尺寸下光与激子、声子、电子等(准)粒子的耦合,激子极化激元的传输与调控;研究纳米尺度下光子自旋-轨道耦合效应。

Profile

Shunping Zhang, professor in School of Physics and Technology, Wuhan University. He received his Bachelor's degree from Sun Yat-Sen University in 2008 and obtained his Pd. D. degree from Institute of Physics, Chinese Academy of Sciences in January, 2013. He joined Wuhan University first as an outstanding postdoc in Hongxing Xu’s group. After that, he got promoted as an associate professor in April, 2015 and as a full professor in December, 2020. His major achievements include: (i) He developed techniques for qualitative spectroscopic measurements on single nanocavity. He realized the measurement of the quantum-limited plasmonic field enhancement and ultrafast decay rate within nanometer dimension. He realized the manipulation of light-matter interaction in a nanocavity, from weak, intermediated to strong coupling. (ii) He explained the mechanism of symmetry breaking induced Fano resonances are response for improved sensitivity plasmonic sensing (close to 600 citations in Web of Science) and realized ultrasensitive thickness sensing down to sub-picometer resolution. (iii) He invented the concept of chiral surface plasmon polaritons and realized the routing of chiral Raman signal in a nanophotonic waveguide. He has published over 70 peer reviewed papers, with more than 5600 citations in Web of Science. As the first author (including equal contributing first authors) or the corresponding author, he has published papers on Phys. Rev. Lett. (3), Nano Lett. (12) and ACS Nano (6), Nat. Sci. Rev. (2), Nat. Commun. (1), Light: Sci. Appl. (1) etc. Currently, he is focused on the following topics: (i) Strong light-matter interaction in nanocavity, (ii) Integrated nanophotonic devices, and (iii) Nonlinear nanophotonics.