螺旋纳米尖端的定向表面等离子体激元激发

Directional Plasmonic Excitation by Helical Nanotips.

作者信息

Singh Leeju, Maccaferri Nicolò, Garoli Denis, Gorodetski Yuri

机构信息

Electrical and Electronics Engineering Department, Ariel University, Ariel 40700, Israel.

Department of Physics and Materials Science, University of Luxembourg, 162a avenue de la Faïencerie, L-1511 Luxembourg, Luxembourg.

出版信息

Nanomaterials (Basel). 2021 May 19;11(5):1333. doi: 10.3390/nano11051333.

DOI:10.3390/nano11051333

PMID:34069339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8158748/

Abstract

The phenomenon of coupling between light and surface plasmon polaritons requires specific momentum matching conditions. In the case of a single scattering object on a metallic surface, such as a nanoparticle or a nanohole, the coupling between a broadband effect, i.e., scattering, and a discrete one, such as surface plasmon excitation, leads to Fano-like resonance lineshapes. The necessary phase matching requirements can be used to engineer the light-plasmon coupling and to achieve a directional plasmonic excitation. Here, we investigate this effect by using a chiral nanotip to excite surface plasmons with a strong spin-dependent azimuthal variation. This effect can be described by a Fano-like interference with a complex coupling factor that can be modified thanks to a symmetry breaking of the nanostructure.

摘要

光与表面等离激元极化激元之间的耦合现象需要特定的动量匹配条件。在金属表面存在单个散射物体的情况下，例如纳米颗粒或纳米孔，宽带效应（即散射）与离散效应（如表面等离激元激发）之间的耦合会导致类法诺共振线形。必要的相位匹配要求可用于设计光 - 等离激元耦合并实现定向等离激元激发。在此，我们通过使用手性纳米尖端来激发具有强烈自旋依赖性方位角变化的表面等离激元，研究了这种效应。这种效应可以用具有复耦合因子的类法诺干涉来描述，该复耦合因子可由于纳米结构的对称性破缺而被修改。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cbba/8158748/ca1bc536a13b/nanomaterials-11-01333-g001.jpg

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螺旋纳米尖端的定向表面等离子体激元激发

Directional Plasmonic Excitation by Helical Nanotips.

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