Hybrid dielectric-loaded nanoridge plasmonic waveguide for low-loss light transmission at the subwavelength scale
Hybrid dielectric-loaded nanoridge plasmonic waveguide for low-loss light transmission at the subwavelength scale
The emerging development of the hybrid plasmonic waveguide has recently received significant attention owing to its remarkable capability of enabling subwavelength field confinement and great transmission distance. Here we report a guiding approach that integrates hybrid plasmon polariton with dielectric-loaded plasmonic waveguiding. By introducing a deep-subwavelength dielectric ridge between a dielectric slab and a metallic substrate, a hybrid dielectric-loaded nanoridge plasmonic waveguide is formed. The waveguide features lower propagation loss than its conventional hybrid waveguiding counterpart, while maintaining strong optical confinement at telecommunication wavelengths. Through systematic structural parameter tuning, we realize an efficient balance between confinement and attenuation of the fundamental hybrid mode, and we demonstrate the tolerance of its properties despite fabrication imperfections. Furthermore, we show that the waveguide concept can be extended to other metal/dielectric composites as well, including metal-insulator-metal and insulator-metal-insulator configurations. Our hybrid dielectric-loaded nanoridge plasmonic platform may serve as a fundamental building block for various functional photonic components and be used in applications such as sensing, nanofocusing, and nanolasing.
Zhang, Bin
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Bian, Yusheng
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Ren, Liqiang
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Guo, Feng
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Tang, Shi Yang
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Mao, Zhangming
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Liu, Xiaomin
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Sun, Jinju
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Gong, Jianying
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Guo, Xiasheng
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Huang, Tony Jun
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16 January 2017
Zhang, Bin
46bab9b1-ab53-4714-bdea-e40be59ed7c4
Bian, Yusheng
2852500e-d92f-43af-95cd-fb888fed219f
Ren, Liqiang
3724d703-bb3a-46c9-9635-0f02b2747c02
Guo, Feng
fa0bfec2-e595-4fab-8958-efeb6a631622
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Mao, Zhangming
6fc821cf-1ca5-4b6c-90b7-b56903ef3cb2
Liu, Xiaomin
33ae9235-dba6-4f6f-bab8-ff333fb26755
Sun, Jinju
7abd0949-6936-4a23-80f8-88f155f0797c
Gong, Jianying
f70f0cff-d47a-45f4-8569-dcbf11d4cdfe
Guo, Xiasheng
7ee3a0f0-61d0-41dc-aff4-b8ff650dd0da
Huang, Tony Jun
d380fbd6-4484-46b2-96f9-6cfec83ecae6
Zhang, Bin, Bian, Yusheng, Ren, Liqiang, Guo, Feng, Tang, Shi Yang, Mao, Zhangming, Liu, Xiaomin, Sun, Jinju, Gong, Jianying, Guo, Xiasheng and Huang, Tony Jun
(2017)
Hybrid dielectric-loaded nanoridge plasmonic waveguide for low-loss light transmission at the subwavelength scale.
Scientific Reports, 7, [40479].
(doi:10.1038/srep40479).
Abstract
The emerging development of the hybrid plasmonic waveguide has recently received significant attention owing to its remarkable capability of enabling subwavelength field confinement and great transmission distance. Here we report a guiding approach that integrates hybrid plasmon polariton with dielectric-loaded plasmonic waveguiding. By introducing a deep-subwavelength dielectric ridge between a dielectric slab and a metallic substrate, a hybrid dielectric-loaded nanoridge plasmonic waveguide is formed. The waveguide features lower propagation loss than its conventional hybrid waveguiding counterpart, while maintaining strong optical confinement at telecommunication wavelengths. Through systematic structural parameter tuning, we realize an efficient balance between confinement and attenuation of the fundamental hybrid mode, and we demonstrate the tolerance of its properties despite fabrication imperfections. Furthermore, we show that the waveguide concept can be extended to other metal/dielectric composites as well, including metal-insulator-metal and insulator-metal-insulator configurations. Our hybrid dielectric-loaded nanoridge plasmonic platform may serve as a fundamental building block for various functional photonic components and be used in applications such as sensing, nanofocusing, and nanolasing.
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Published date: 16 January 2017
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Funding Information:
This work was supported by the National Institutes of Health (R01 GM112048 and R33 EB019785), National Science Foundation (IIP-1534645 and IDBR-1455658), and National Natural Science Foundation of China (Grant No. 11272251 and 11304004). Bin Zhang would like to express his gratitude to the China Scholarship Council (CSC) for the financial support.
Publisher Copyright:
© The Author(s) 2017.
Identifiers
Local EPrints ID: 481686
URI: http://eprints.soton.ac.uk/id/eprint/481686
ISSN: 2045-2322
PURE UUID: a7c1a244-ea1d-4f1b-ad81-122b19a62356
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Date deposited: 06 Sep 2023 16:48
Last modified: 18 Mar 2024 04:13
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Contributors
Author:
Bin Zhang
Author:
Yusheng Bian
Author:
Liqiang Ren
Author:
Feng Guo
Author:
Shi Yang Tang
Author:
Zhangming Mao
Author:
Xiaomin Liu
Author:
Jinju Sun
Author:
Jianying Gong
Author:
Xiasheng Guo
Author:
Tony Jun Huang
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