Mid-infrared directional surface waves on a high aspect ratio nano-trench platform

Optical surface waves, highly localized modes bound to the surface of media, enable manipulation of light at nanoscale, thus impacting a wide range of areas in nanoscience. By applying metamaterials, artificially designed optical materials, as contacting media at the interface, we can significantly...

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Veröffentlicht in:	arXiv.org 2017-04
Hauptverfasser:	Takayama, Osamu, Shkondin, Evgeniy, Bodganov, Andrey, Mohammad Esmail Aryaee Panah, Golenitskii, Kirill, Dmitriev, Pavel, Repän, Taavi, Malureanu, Radu, Belov, Pavel, Jensen, Flemming, Lavrinenko, Andrei V
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Sprache:	eng
Schlagworte:	Broadband High aspect ratio Lamellar structure Metamaterials Optical materials Optics Surface waves Wave propagation
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creator	Takayama, Osamu Shkondin, Evgeniy Bodganov, Andrey Mohammad Esmail Aryaee Panah Golenitskii, Kirill Dmitriev, Pavel Repän, Taavi Malureanu, Radu Belov, Pavel Jensen, Flemming Lavrinenko, Andrei V
description	Optical surface waves, highly localized modes bound to the surface of media, enable manipulation of light at nanoscale, thus impacting a wide range of areas in nanoscience. By applying metamaterials, artificially designed optical materials, as contacting media at the interface, we can significantly ameliorate surface wave propagation and even generate new types of waves. Here, we demonstrate that high aspect ratio (1:20) grating structures with plasmonic lamellas in deep nanoscale trenches function as a versatile platform supporting both surface and volume infrared waves. The surface waves exhibit a unique combination of properties, such as directionality, broadband existence (from 4 {\mu}m to at least 14 {\mu}m and beyond) and high localization, making them an attractive tool for effective control of light in an extended range of infrared frequencies.
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subjects	Broadband High aspect ratio Lamellar structure Metamaterials Optical materials Optics Surface waves Wave propagation
title	Mid-infrared directional surface waves on a high aspect ratio nano-trench platform
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