Funneling of light in combinations of metal-insulator-metal resonators

Paul Chevalier; Patrick Bouchon; Riad Haïdar; Fabrice Pardo

doi:10.1117/1.JNP.6.063534

Funneling of light in combinations of metal-insulator-metal resonators

Paul Chevalier
, Patrick Bouchon
, Riad Haïdar
, Fabrice Pardo

École Polytechnique

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

Abstract

Plasmonic metal-insulator-metal resonators can totally absorb incident light. However, it is necessary to know where the incident energy is headed and which mechanism contributes to the funneling of energy. Numerical simulations have shown the concentration of light for simple resonators but other designs may allow a sharper tuning of the absorption properties. An energetic analysis was conducted with different combinations of grooves and horizontal metal-insulator-metal resonators. It showed where the energy was preferentially funneled, which highlights the possibility of photons sorting and displays the localization of the energy dissipation in such plasmonic nanoresonator. These results are giving promising design rules for multi-spectral absorbing materials.

Original language	English
Article number	063534
Journal	Journal of Nanophotonics
Volume	6
Issue number	1
DOIs	https://doi.org/10.1117/1.JNP.6.063534
Publication status	Published - 1 Jan 2012

Keywords

Fabry-Perot
gratings
infrared
multispectral imaging
nanophotonics
plasmonics

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10.1117/1.JNP.6.063534

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abstract = "Plasmonic metal-insulator-metal resonators can totally absorb incident light. However, it is necessary to know where the incident energy is headed and which mechanism contributes to the funneling of energy. Numerical simulations have shown the concentration of light for simple resonators but other designs may allow a sharper tuning of the absorption properties. An energetic analysis was conducted with different combinations of grooves and horizontal metal-insulator-metal resonators. It showed where the energy was preferentially funneled, which highlights the possibility of photons sorting and displays the localization of the energy dissipation in such plasmonic nanoresonator. These results are giving promising design rules for multi-spectral absorbing materials.",

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AU - Bouchon, Patrick

AU - Haïdar, Riad

AU - Pardo, Fabrice

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Y1 - 2012/1/1

N2 - Plasmonic metal-insulator-metal resonators can totally absorb incident light. However, it is necessary to know where the incident energy is headed and which mechanism contributes to the funneling of energy. Numerical simulations have shown the concentration of light for simple resonators but other designs may allow a sharper tuning of the absorption properties. An energetic analysis was conducted with different combinations of grooves and horizontal metal-insulator-metal resonators. It showed where the energy was preferentially funneled, which highlights the possibility of photons sorting and displays the localization of the energy dissipation in such plasmonic nanoresonator. These results are giving promising design rules for multi-spectral absorbing materials.

AB - Plasmonic metal-insulator-metal resonators can totally absorb incident light. However, it is necessary to know where the incident energy is headed and which mechanism contributes to the funneling of energy. Numerical simulations have shown the concentration of light for simple resonators but other designs may allow a sharper tuning of the absorption properties. An energetic analysis was conducted with different combinations of grooves and horizontal metal-insulator-metal resonators. It showed where the energy was preferentially funneled, which highlights the possibility of photons sorting and displays the localization of the energy dissipation in such plasmonic nanoresonator. These results are giving promising design rules for multi-spectral absorbing materials.

KW - Fabry-Perot

KW - gratings

KW - infrared

KW - multispectral imaging

KW - nanophotonics

KW - plasmonics

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Funneling of light in combinations of metal-insulator-metal resonators

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Keywords

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