Experimental demonstration of the optical Helmholtz resonance

Optical nanoantennas are studied to manipulate light and enhance light matter interactions. Here, we experimentally demonstrate the optical Helmholtz resonance in a metallic slit-box structure, which is predicted to be harmonic and to enhance the electric field intensity by several orders of magnitu...

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Veröffentlicht in:	Applied physics letters 2018-04, Vol.112 (17), p.171110-1 - 171110-4
Hauptverfasser:	Chevalier, Paul, Bouchon, Patrick, Verdun, Michael, Steveler, Emilie, Bardou, Nathalie, Dupuis, Christophe, Pardo, Fabrice, Haïdar, Riad
Format:	Artikel
Sprache:	eng
Schlagworte:	Engineering Sciences Optics Photonic
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container_issue	17
container_start_page	171110
container_title	Applied physics letters
container_volume	112
creator	Chevalier, Paul Bouchon, Patrick Verdun, Michael Steveler, Emilie Bardou, Nathalie Dupuis, Christophe Pardo, Fabrice Haïdar, Riad
description	Optical nanoantennas are studied to manipulate light and enhance light matter interactions. Here, we experimentally demonstrate the optical Helmholtz resonance in a metallic slit-box structure, which is predicted to be harmonic and to enhance the electric field intensity by several orders of magnitude. It is fabricated thanks to a two step electron beam lithography process, between which the box was filled with benzocyclobutene (BCB). Up to 80% of the light is absorbed at a λ = 2.84 μm wavelength under a beam focused by a Cassegrain objective (NA = 0.4), even if the dimensions of this resonator are deeply subwavelength for both the slit (width λ/55 and height λ/77) and the box (width λ/7 and height λ/37). As expected from the inductance nature of the box, the optical properties of the BCB filling the box have no influence on the resonance behavior.
doi_str_mv	10.1063/1.5028256
format	Article
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subjects	Engineering Sciences Optics Photonic
title	Experimental demonstration of the optical Helmholtz resonance
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