Imaging of Nanoscale Light Confinement in Plasmonic Nanoantennas by Brownian Optical Microscopy

Lee Yeon Ui; Wisna G. Bimananda M.; Hsu Su-Wen; Zhao Junxiang; Lei Ming; Li Shilong; Tao Andrea R.; Liu Zhaowei

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Imaging of Nanoscale Light Confinement in Plasmonic Nanoantennas by Brownian Optical Microscopy

机译：褐色光学显微镜纳米纳米纳米纳米纳米纳米级纳米级光限制的成像

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摘要

The strongly enhanced and confined subwavelength optical fields near plasmonic nanoantennas have been extensively studied not only for the fundamental understanding of light-matter interactions at the nanoscale but also for their emerging practical application in enhanced second harmonic generation, improved inelastic electron tunneling, harvesting solar energy, and photocatalysis. However, owing to the deep subwavelength nature of plasmonic field confinement, conventional optical imaging techniques are incapable of characterizing the optical performance of these plasmonic nanoantennas. Here, we demonstrate super-resolution imaging of similar to 20 nm optical field confinement by monitoring randomly moving dye molecules near plasmonic nanoantennas. This Brownian optical microscopy is especially suitable for plasmonic field characterization because of its capabilities for polarization sensitive wide-field super-resolution imaging.

机译：等级纳米纳米附近的强大增强和狭窄的亚基波长光学领域不仅已经广泛研究了纳米尺度的光物质相互作用的基本理解，而且还针对其在增强的二次谐波产生，改进的非弹性电子隧道，收获太阳能中的新兴的实际应用。和光催化。然而，由于等离子体场限制的深度亚波长性质，传统的光学成像技术不能表征这些等离子体纳米环的光学性能。在这里，我们通过监测等离子体纳米纳米附近的随机移动的染料分子来证明类似于20nm光学场限制的超分辨率成像。这种褐色光学显微镜特别适用于等离子体场表征，因为其偏振敏感宽场超分辨率成像能力。

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来源
《ACS nano》 |2020年第6期|共7页
作者
Lee Yeon Ui; Wisna G. Bimananda M.; Hsu Su-Wen; Zhao Junxiang; Lei Ming; Li Shilong; Tao Andrea R.; Liu Zhaowei;
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作者单位

Univ Calif San Diego Dept Elect &

Comp Engn La Jolla CA 92093 USA;

Univ Calif San Diego Mat Sci &

Engn Program La Jolla CA 92093 USA;

Univ Calif San Diego Dept NanoEngn La Jolla CA 92093 USA;

Univ Calif San Diego Dept Elect &

Comp Engn La Jolla CA 92093 USA;

Univ Calif San Diego Dept Elect &

Comp Engn La Jolla CA 92093 USA;

Univ Calif San Diego Dept Elect &

Comp Engn La Jolla CA 92093 USA;

Univ Calif San Diego Mat Sci &

Engn Program La Jolla CA 92093 USA;

Univ Calif San Diego Dept Elect &

Comp Engn La Jolla CA 92093 USA;

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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
super-resolution imaging; plasmonic nanoantennas; hot spot imaging; Brownian optical microscopy; fluorescence enhancement; nanophotonics; plasmonics;

机译：超分辨率成像;等离子体纳米纳米南诺纳米;热点成像;褐色光学显微镜;荧光增强;纳米级;血管;

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专利

1. Correction to Imaging of Nanoscale Light Confinement in Plasmonic Nanoantennas by Brownian Optical Microscopy [J] . Yeon Ui Lee, G. Bimananda M. Wisna, Su-Wen Hsu, ACS nano . 2020,第9期

机译：褐色光学显微镜纳米纳米环纳米级光限制成像校正
2. Tailoring spatiotemporal light confinement in single plasmonic nanoantennas [J] . Hanke T., Cesar J., Knittel V., Nano letters . 2012,第2期

机译：量身定制单等离激元纳米天线的时空光限制
3. Invertible plasmonic spin-Hall effect at nanoscale based on U-shaped optical slot nanoantenna [J] . Zhang Jingyun, Dai Jiawei, Yang Jing, Nanotechnology . 2019,第34期

机译：基于U形光学槽Nanoantenna的纳米载体可处于可逆等离子体旋转厅效应
4. Design of a hybrid slot plasmonic waveguide with nanoscale light confinement and its application for ultrafast all-optical switching [C] . Zhang Zhonglai, Wang Jian, Xiang Chao, 2012 Asia Communications and Photonics Conference . 2012

机译：具有纳米级光限制的混合缝隙等离子体激元波导的设计及其在超快全光切换中的应用
5. Nanoscale Synapse Imaging and Whole Brain Neuronal Tracing with Super Resolution Oblique Light Sheet Microscopy [D] . Mizrachi, Judith. 2020

机译：纳米级突触成像和全脑神经元跟踪，具有超分辨率斜光薄片显微镜
6. Nanoscale Imaging of Local Few-Femtosecond Near-FieldDynamics within a Single Plasmonic Nanoantenna [O] . Erik Mårsell, Arthur Losquin, Robin Svärd, -1

机译：局部飞秒近场的纳米成像单个等离子纳米天线内的动力学
7. Correction to Imaging of Nanoscale Light Confinement in Plasmonic Nanoantennas by Brownian Optical Microscopy [O] . Yeon Ui Lee, G. Bimananda M. Wisna, Su-Wen Hsu, 2020

机译：褐色光学显微镜纳米级纳米环中纳米级光限制成像的校正

Imaging of Nanoscale Light Confinement in Plasmonic Nanoantennas by Brownian Optical Microscopy

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