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  5. Novel classical and quantum photonic devices by manipulating light-matter interactions in low-dimens

Novel classical and quantum photonic devices by manipulating light-matter interactions in low-dimens

来源 :The 6th International Conference on Nanoscience and Technolo | 被引量 : 0次 | 上传用户:JK0803_lichunfeng
【摘 要】
Strongly confined electrical, optical and thermal excitations drastically modify material‘s properties and break local symmetries that can enable precisely tunable novel responses and new functionalit
【作 者】
Ritesh Agarwal 
【机 构】
Department of Materials Science and Engineering,University of Pennsylvania, 3231 Walnut St.,Philadel
【出 处】
The 6th International Conference on Nanoscience and Technolo
【发表日期】
2015年5期
【关键词】
nanowires 2D materials. plasmons Purcell effect Si nanophotonics Fano resonance 
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  Strongly confined electrical, optical and thermal excitations drastically modify material‘s properties and break local symmetries that can enable precisely tunable novel responses and new functionalities. With an emphasis on low-dimensional materials such as nanowires and monolayer MoS2, we will discuss how extreme confinement of fields interacting with materials produces new and unexpected materials response.
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