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光学前沿在线:微纳光子学会议(2020)周五见

发布:guangxuedaren    |    2020-09-23 00:11    阅读:848
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光学前沿在线:微纳光子学会议(2020)终于要在9月25日(本周五)与大家线上见了!与之前的线上会议不同,本次会议连续举办3天,9月25-27日,39个前沿邀请报告精彩不断,国庆假期前給自己来一次学术盛宴吧!

 

会议注册还在进行中,点击直接注册参会会议涵盖光子晶体、超材料/超表面、金属等离激元、光学微腔、硅基光子器件、光吸收与热辐射、光力与微操控、纳米半导体结构、二维材料、有机钙钛矿等热门方向,我们期待与您共同探讨微纳光子学领域的前沿进展!

组织机构

会议主席

刘辉,南京大学(主席)

陈鸿,同济大学(共主席)

程序委员会

蔡定平,香港理工大学

陈子亭,香港科技大学

程亚, 华东师范大学/上海光机所

崔铁军,东南大学

罗先刚,中国科学院光电技术研究所

彭茹雯,南京大学

仇旻,西湖大学

童利民,浙江大学

肖云峰,北京大学

袁小聪,深圳大学

周磊,复旦大学

主办单位
 


Technical Cosponsor


 

大会报告

Yuri Kivshar

澳大利亚国立大学

向上滑动阅览

报告题目:Recent advances in Mie-resonant metaphotonics

摘要:Metamaterials---artificial electromagnetic media that are structured on the subwavelength scale---were initially suggested for the realization of negative-index media, and later they became a paradigm for engineering electromagnetic space and control¬ling propagation of waves. However, applications of metamaterials in optics are limited due to inherent losses in metals employed for the realization of artificial optical magnetism. Recently, we observe the emergence of a new field of all-dielectric Mie-resonant metaphotonics aiming at the manipulation of strong optically-induced electric and magnetic Mie-type resonances in dielectric and semiconductor nanostructures with relatively high refractive index. Unique advantages of dielectric resonant nanostructures over their metallic counterparts are low dissipative losses and the enhancement of both electric and magnetic fields that provide competitive alternatives for plasmonic structures including optical nanoantennas, efficient biosensors, passive and active metasurfaces, and functional metadevices. This talk will summarize the recent advances in all-dielectric Mie-resonant metaphotonics including nonlinear photonics, bound states in the continuum, Kerker effect, as well as the recently emerged fields of biosensing, active and topological photonics.

简介:Yuri Kivshar received a PhD degree in theoretical physics in 1984 from the Institute for Low Temperature Physics and Engineering of the USSR Academy of Science (Kharkov, Ukraine). From 1988 to 1993 he worked at several research centers in USA, Spain, and Germany, and in 1993 he moved to Australia where later he established Nonlinear Physics Center at the Australian National University. Yuri Kivshar’s research interests include nonlinear physics, metamaterials, and nanophotonics. He is Fellow of the Australian Academy of Science, and also Fellow of OSA, APS, SPIE and IOP. He received several international awards including Pnevmatikos Prize in Nonlinear Science (Greece), Lyle Medal (Australia), Lebedev Medal (Russia), The State Prize in Science (Ukraine), Harrie Massey Medal (UK), Humboldt Research Award (Germany), and SPIE Mozi Award (USA).

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9月25日


9月26日

9月27日

 

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