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武汉光电论坛第185期:全介质纳米光子学:材料、设计与应用

来源:   作者:  发布时间:2023年05月15日  点击量:

报告题目:全介质纳米光子学:材料、设计与应用

时间:2023年5月16日10:00-11:30

报告人:Sergey Makarov教授,俄罗斯ITMO大学

邀请人:唐江教授,华中科技大学

地点:华中科技大学新光电信息大楼C117

报告人简介:

Sergey Makarov received a Ph.D. degree in 2014 at the Lebedev Physical Institute of the Russian Academy of Sciences (Moscow, Russia), and Habilitated at the ITMO University in 2018 (St. Petersburg, Russia). He hold a part-time Professor position and Head of Laboratory of Hybrid Nanophotonics and Optoelectronics at ITMO University. Also, since 2022, he is a Full Professor at Qingdao Innovation and Development Centre of Harbin Engineering University, and a co-director of the International Joint Research Centre for Nanophotonics and Metamaterials there.

The topics of his research activity include nanophotonics, halide perovskites, laser-matter interaction, nanotechnology, and optoelectronics. He is co-author of more than 300 publications, including Chemical Reviews, Advanced Materials, ACS Nano, and in many other high-level journals. Sergey Makarov received many prestigious awards for his research including Russian Presidential Award and “Research Excellence Award - Russia” given by Elsevier. Sergey Makarov is also an Editorial Board member of Opto-Electronic Advances journal, and in Advisory Board of ACS Materials Au and Advanced Photonics Research.

报告摘要:

Nanophotonics and meta-optics based on optically resonant all-dielectric structures is a rapidly developing research area driven by its potential applications for low-loss efficient metadevices. Many materials were applied to create advanced all-dielectric nanophotonic designs, including Si, GaAs, GaP, TiO2, and many others. Recently, the study of halide perovskites has attracted enormous attention due to their exceptional optical and electrical properties. As a result, this family of materials can provide a prospective platform for modern all-dielectric nanophotonics and meta-optics, allowing us to overcome many obstacles associated with the use of conventional semiconductor materials. Finally, we overview the recent progress in such applications of all-dielectric nanophotonics as optical heating, nanothermometry, light-emitting nanoantennas, nanolasers, surface coloration, anti-reflection, optical information encoding, and photovoltaics.


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