Electrically tunable metasurface perfect absorber for infrared frequencies

Gwanho Yoon; Sunae So; Minkyung Kim; Jungho Mun; Renmin Ma; Junsuk Rho

doi:10.1186/s40580-017-0131-0

Electrically tunable metasurface perfect absorber for infrared frequencies

Gwanho Yoon, Sunae So, Minkyung Kim, Jungho Mun, Renmin Ma, Junsuk Rho

Dept. of Manufacturing Systems and Design Engineering

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

We theoretically investigate a metasurface perfect absorber based on indium-tin-oxide as active material. Our design scheme relies on conventional metal–oxide–semiconductor model and the Drude model. Inducing a voltage into the device causes a blue-shift of 50 nm in the reflectance spectrum in the infrared region. The total thickness of the device is only 3.5% of the working wavelength λ = 2.56 μm, and the rate of reflectance change reaches 5.16 at λ = 2.56 μm. Because the material that we use has advantages of easy fabrication and fast response, our design approach can be used for numerous applications on active plasmonic sensors and filters.

Original language	English
Article number	36
Journal	Nano Convergence
Volume	4
Issue number	1
DOIs	https://doi.org/10.1186/s40580-017-0131-0
State	Published - Dec 2017

Keywords

Drude model
Electrically tunable metasurface
Indium-tin-oxide
Infrared
Metal
Oxide
Perfect absorber
Semiconductor model

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abstract = "We theoretically investigate a metasurface perfect absorber based on indium-tin-oxide as active material. Our design scheme relies on conventional metal–oxide–semiconductor model and the Drude model. Inducing a voltage into the device causes a blue-shift of 50 nm in the reflectance spectrum in the infrared region. The total thickness of the device is only 3.5% of the working wavelength λ = 2.56 μm, and the rate of reflectance change reaches 5.16 at λ = 2.56 μm. Because the material that we use has advantages of easy fabrication and fast response, our design approach can be used for numerous applications on active plasmonic sensors and filters.",

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AU - Yoon, Gwanho

AU - So, Sunae

AU - Kim, Minkyung

AU - Mun, Jungho

AU - Ma, Renmin

AU - Rho, Junsuk

N1 - Publisher Copyright: © The Author(s) 2017.

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N2 - We theoretically investigate a metasurface perfect absorber based on indium-tin-oxide as active material. Our design scheme relies on conventional metal–oxide–semiconductor model and the Drude model. Inducing a voltage into the device causes a blue-shift of 50 nm in the reflectance spectrum in the infrared region. The total thickness of the device is only 3.5% of the working wavelength λ = 2.56 μm, and the rate of reflectance change reaches 5.16 at λ = 2.56 μm. Because the material that we use has advantages of easy fabrication and fast response, our design approach can be used for numerous applications on active plasmonic sensors and filters.

AB - We theoretically investigate a metasurface perfect absorber based on indium-tin-oxide as active material. Our design scheme relies on conventional metal–oxide–semiconductor model and the Drude model. Inducing a voltage into the device causes a blue-shift of 50 nm in the reflectance spectrum in the infrared region. The total thickness of the device is only 3.5% of the working wavelength λ = 2.56 μm, and the rate of reflectance change reaches 5.16 at λ = 2.56 μm. Because the material that we use has advantages of easy fabrication and fast response, our design approach can be used for numerous applications on active plasmonic sensors and filters.

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KW - Infrared

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Electrically tunable metasurface perfect absorber for infrared frequencies

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Keywords

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