Hyperuniform disordered metal-insulator-metal gap plasmon metasurface near perfect light absorber

In this work, we first introduce hyperuniform disordered patterns to a metal-insulator-metal gap plasmon metasurface and demonstrate enhanced wideband light absorption in the visible and near-infrared spectral region. Measurement of optical reflectance from fabricated periodic, hyperuniform disorder...

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Published inOptical materials express Vol. 11; no. 12; p. 4083
Main Authors Kim, Wonkyu, Simpkins, Blake S., Guo, Hong, Hendrickson, Joshua R., Guo, Junpeng
Format Journal Article
LanguageEnglish
Published Washington Optical Society of America 01.12.2021
Subjects
Electromagnetic absorption
Infrared spectra
Insulators
Metamaterials
Metasurfaces
Near infrared radiation
Optical resonance
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Abstract In this work, we first introduce hyperuniform disordered patterns to a metal-insulator-metal gap plasmon metasurface and demonstrate enhanced wideband light absorption in the visible and near-infrared spectral region. Measurement of optical reflectance from fabricated periodic, hyperuniform disordered, and random pattern gap plasmon metasurface devices has revealed the origins of the two resonance modes of the gap plasmon metasurface structure: a localized gap plasmon resonance mode and a non-local guided optical resonance mode. The technique of using hyperuniform disordered patterns for investigating complex resonance modes of structured materials can be used for design of a variety of new metamaterials.
AbstractList In this work, we first introduce hyperuniform disordered patterns to a metal-insulator-metal gap plasmon metasurface and demonstrate enhanced wideband light absorption in the visible and near-infrared spectral region. Measurement of optical reflectance from fabricated periodic, hyperuniform disordered, and random pattern gap plasmon metasurface devices has revealed the origins of the two resonance modes of the gap plasmon metasurface structure: a localized gap plasmon resonance mode and a non-local guided optical resonance mode. The technique of using hyperuniform disordered patterns for investigating complex resonance modes of structured materials can be used for design of a variety of new metamaterials.
Author Simpkins, Blake S.
Hendrickson, Joshua R.
Guo, Junpeng
Kim, Wonkyu
Guo, Hong
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Snippet In this work, we first introduce hyperuniform disordered patterns to a metal-insulator-metal gap plasmon metasurface and demonstrate enhanced wideband light...
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SubjectTerms Electromagnetic absorption
Infrared spectra
Insulators
Metamaterials
Metasurfaces
Near infrared radiation
Optical resonance
Title Hyperuniform disordered metal-insulator-metal gap plasmon metasurface near perfect light absorber
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