銆€鎶ュ憡棰樼洰錛歄ptics at the Nanoscale
銆€銆€鎶ュ憡鏃墮棿錛?2鏈?5鏃ワ紙鏄熸湡浜岋級(jí)涓婂崍10錛?0-11錛?0
銆€銆€鍦扮偣錛氳禌鍗氬崡妤?03-1浼?xì)璁?br />銆€銆€鎶ュ憡浜猴細(xì)Fumin Huang
銆€銆€鎶ュ憡鎽樿錛?br />銆€銆€In this talk, I will provide an overview of nanophotonics, a thriving field concerning light-matter interactions at the nanometer scale. The resolution of conventional optics is restricted by the diffraction effect, limited to about half wavelength of light. Plasmonic nanostructures can beat the diffraction limit by exploiting the optical near fields. This has profound impacts in many areas, including super-resolution optical imaging, lithography, data storage, energy harvesting and molecular sensing. I will present fundamentals of plasmonics and examples of a few major applications.
銆€銆€鎶ュ憡浜虹畝浠嬶細(xì)
銆€銆€Dr Fumin Huang is currently Director of Internationalisation in the School of Mathematics and Physics, Queen鈥檚 University Belfast, UK. Dr Huang obtained BSc and MSc in the Physics Department of Peking University. He then worked as a lecturer at Zhejiang University for 5 years. In 2005, he obtained a PhD degree in Physics at King鈥檚 College London, then worked as postdoctoral researchers in the Optoelectronics Research Centre at the University of Southampton and the Nanophotonics Centre at University of Cambridge. He was appointed a lecturer at Queen鈥檚 University Belfast in 2013 and is a permanent academic staff in the School of Mathematics and Physics. Dr Huang鈥檚 research interests are mainly in nanophotonics and nanomaterials, including superresolution optics, plasmonics and 2D materials. He has published about 40 papers, with many in high impact journals, such as ACS Nano, Nano letters and Nature Nanotechnology, which are cited >2200 times.
鍏夌數(shù)瀛﹂櫌
2018騫?2鏈?4鏃?/p>
