Iridescence-free and narrowband perfect light absorption in critically coupled metal high-index dielectric cavities

M. ElKabbash; E. Ilker; T. Letsou; N. Hoffman; A. Yaney; M. Hinczewski; G. Strangi

doi:10.1364/OL.42.003598

Optics Letters
Vol. 42,
Issue 18,
pp. 3598-3601
(2017)
•https://doi.org/10.1364/OL.42.003598

Iridescence-free and narrowband perfect light absorption in critically coupled metal high-index dielectric cavities

M. ElKabbash, E. Ilker, T. Letsou, N. Hoffman, A. Yaney, M. Hinczewski, and G. Strangi

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M. ElKabbash, E. Ilker, T. Letsou, N. Hoffman, A. Yaney, M. Hinczewski, and G. Strangi, "Iridescence-free and narrowband perfect light absorption in critically coupled metal high-index dielectric cavities," Opt. Lett. 42, 3598-3601 (2017)

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Abstract

Perfect light absorption in the visible and near-infrared (NIR) was demonstrated using metamaterials, plasmonic nanostructures, and thin films. Thin film absorbers offer a simple and low-cost design as they can be produced on large areas and without lithography. Light is strongly absorbed in thin film metal-dielectric-metal (MDM) cavities at their resonance frequencies. However, a major drawback of MDM absorbers is their strong resonance iridescence, i.e., angle dependence. Here, we solve the iridescence problem by achieving angle-insensitive narrowband perfect and near-perfect light absorption. In particular, we show analytically that using a high-index dielectric in MDM cavities is sufficient to achieve angle-insensitive cavity resonance. We demonstrate experimentally angle-insensitive perfect and near-perfect absorbers in the NIR and visible regimes up to $\pm 60 °$ . By overcoming the iridescence problem, we open the door for practical applications of MDM absorbers at optical frequencies.

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Optics Letters