Plasmonic reflectors and high-Q nano-cavities based on coupled metal-insulator-metal waveguides | Zendy

Jing Chen | Zendy; Jian Yang | Zendy; Zhuo Chen | Zendy; Yijiao Fang | Zendy; Peng Zhan | Zendy; Zhenlin Wang | Zendy

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Plasmonic reflectors and high-Q nano-cavities based on coupled metal-insulator-metal waveguides

Author(s) -

Jing Chen,

Jian Yang,

Zhuo Chen,

Yijiao Fang,

Peng Zhan,

Zhenlin Wang

Publication year - 2012

Publication title -

aip advances

Language(s) - English

Resource type - Journals

ISSN - 2158-3226

DOI - 10.1063/1.3688767

Subject(s) - plasmon , optoelectronics , reflector (photography) , materials science , metal insulator metal , surface plasmon , metal , coupling (piping) , photonics , optics , physics , light source , quantum mechanics , voltage , metallurgy , capacitor

Based on the contra-directional coupling, a composite structure consisting of two coupled metal-insulator-metal (MIM) waveguides is proposed to act as an attractive plasmonic reflector. By introducing a defect into one of the MIM waveguides, we show that such a composite structure can be operated as a plasmonic nanocavity with a high quality factor. Both symmetric and anti-symmetric cavity modes are supported in the plasmonic cavity, and their resonance frequencies can be tuned by controlling the defect width. The present structures could have a significant impact for potential applications such as surface plasmon mirrors, filters and solid-state cavity quantum electrodynamics

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