Experimental Demonstration of Tunable Directional Scattering of Visible Light from All-Dielectric Asymmetric Dimers

Experimental Demonstration of Tunable Directional Scattering of Visible Light from All-Dielectric Asymmetric Dimers

Due to the presence of strong magnetic resonances, high refractive index dielectric nanoantennnas have shown the ability to expand the methods available for controlling electromagnetic waves in the subwavelength region. In this work, we experimentally demonstrate that an asymmetric dielectric dimer...

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Veröffentlicht in:ACS photonics 2017-03, Vol.4 (3), p.489-494
Hauptverfasser: Shibanuma, Toshihiko, Matsui, Takayuki, Roschuk, Tyler, Wojcik, Jacek, Mascher, Peter, Albella, Pablo, Maier, Stefan A
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container_issue 3
container_start_page 489
container_title ACS photonics
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creator Shibanuma, Toshihiko
Matsui, Takayuki
Roschuk, Tyler
Wojcik, Jacek
Mascher, Peter
Albella, Pablo
Maier, Stefan A
description Due to the presence of strong magnetic resonances, high refractive index dielectric nanoantennnas have shown the ability to expand the methods available for controlling electromagnetic waves in the subwavelength region. In this work, we experimentally demonstrate that an asymmetric dielectric dimer made of silicon can lead to highly directional scattering depending on the excitation wavelength, due to the interference of the excited magnetic resonances. A back focal plane imaging system combined with a prism coupling technique enables us to explore the scattering profile parallel to the substrate. The directivity of scattering along the substrate is high enough to produce selective guiding of light along the substrate. These results showing tunable control of directional scattering will encourage the realization of novel optical applications, such as optical nanocircuitry.
doi_str_mv 10.1021/acsphotonics.6b00979
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title Experimental Demonstration of Tunable Directional Scattering of Visible Light from All-Dielectric Asymmetric Dimers
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