用电子探测单晶金锥的等离子体激发机制和远场辐射。

Probing plasmonic excitation mechanisms and far-field radiation of single-crystalline gold tapers with electrons.

作者信息

Lingstädt Robin, Talebi Nahid, Guo Surong, Sigle Wilfried, Campos Alfredo, Kociak Mathieu, Esmann Martin, Becker Simon F, Okunishi Eiji, Mukai Masaki, Lienau Christoph, van Aken Peter A

机构信息

Max Planck Institute for Solid State Research, Stuttgart, Germany.

Institute of Experimental and Applied Physics, Christian Albrechts University, Kiel, Germany.

出版信息

Philos Trans A Math Phys Eng Sci. 2020 Dec 11;378(2186):20190599. doi: 10.1098/rsta.2019.0599. Epub 2020 Oct 26.

DOI:10.1098/rsta.2019.0599

PMID:33100159

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7661279/

Abstract

Conical metallic tapers represent an intriguing subclass of metallic nanostructures, as their plasmonic properties show interesting characteristics in strong correlation to their geometrical properties. This is important for possible applications such as in the field of scanning optical microscopy, as favourable plasmonic resonance behaviour can be tailored by optimizing structural parameters like surface roughness or opening angle. Here, we review our recent studies, where single-crystalline gold tapers were investigated experimentally by means of electron energy-loss and cathodoluminescence spectroscopy techniques inside electron microscopes, supported by theoretical finite-difference time-domain calculations. Through the study of tapers with various opening angles, the underlying resonance mechanisms are discussed. This article is part of a discussion meeting issue 'Dynamic microscopy relating structure and function'.

摘要

锥形金属锥体是金属纳米结构中一个引人关注的子类，因为它们的等离子体特性与其几何特性密切相关，呈现出有趣的特征。这对于诸如扫描光学显微镜领域的潜在应用很重要，因为通过优化表面粗糙度或开口角度等结构参数，可以调整出有利的等离子体共振行为。在此，我们回顾我们最近的研究，其中在电子显微镜内通过电子能量损失和阴极发光光谱技术对单晶金锥体进行了实验研究，并辅以理论时域有限差分计算。通过对具有不同开口角度的锥体的研究，讨论了潜在的共振机制。本文是“关联结构与功能的动态显微镜”讨论会议文集的一部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0def/7661279/9241ac2d4755/rsta20190599-g1.jpg

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用电子探测单晶金锥的等离子体激发机制和远场辐射。

Probing plasmonic excitation mechanisms and far-field radiation of single-crystalline gold tapers with electrons.

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