Field-enhanced nanofocusing of radially polarized light by a tapered hybrid plasmonic waveguide with periodic grooves

Ji Xu; Kang Li; Sicheng Zhang; Xinyi Lu; Nannan Shi; Zhaohuan Tan; Yunqing Lu; Ning Liu; Baifu Zhang; Zhongcheng Liang

doi:10.1364/AO.58.000588

Applied Optics
Vol. 58,
Issue 3,
pp. 588-592
(2019)
•https://doi.org/10.1364/AO.58.000588

Field-enhanced nanofocusing of radially polarized light by a tapered hybrid plasmonic waveguide with periodic grooves

Ji Xu, Kang Li, Sicheng Zhang, Xinyi Lu, Nannan Shi, Zhaohuan Tan, Yunqing Lu, Ning Liu, Baifu Zhang, and Zhongcheng Liang

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Ji Xu, Kang Li, Sicheng Zhang, Xinyi Lu, Nannan Shi, Zhaohuan Tan, Yunqing Lu, Ning Liu, Baifu Zhang, and Zhongcheng Liang, "Field-enhanced nanofocusing of radially polarized light by a tapered hybrid plasmonic waveguide with periodic grooves," Appl. Opt. 58, 588-592 (2019)

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- Surface Optics and Plasmonics
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About this Article
History
- Original Manuscript: October 25, 2018
- Revised Manuscript: December 8, 2018
- Manuscript Accepted: December 11, 2018
- Published: January 17, 2019

Abstract

This study reports the field-enhanced nanofocusing of radially polarized light by tapered hybrid plasmonic waveguide (THPW) with periodic grooves. The THPW consists of a conical high-index dielectric cone, a sandwiched low-index dielectric thin layer, and a metal cladding. The axially symmetric 3D finite element method is used to investigate the nanofocusing effect. Under radially polarized illumination at 632.8 nm, strongly enhanced nanofocusing occurs. The hybrid plasmonic structure effectively reduces the energy loss and improves the field enhancement nearly 554 times. Furthermore, periodic grooves are constructed on the metallic surface of the THPW, satisfying the phase-matching condition, and they couple the light energy from the inside to the outside. Finally, an optimized nanofocusing performance with field enhancement of approximately 1810 times is obtained. The results offer an important reference for designing related photonic devices, and the proposed scheme could be potentially exploited in the application of light–matter interactions.

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