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Strongly resonant silicon slot metasurfaces with symmetry-protected bound states in the continuum

Abstract: In this work, a novel all-dielectric metasurface made of arrayed circular slots etched in a silicon layer is proposed and theoretically investigated. The structure is designed to support both Mie-type multipolar resonances and symmetry-protected bound states in the continuum (BIC). Specifically, the metasurface consists of interrupted circular slots, following the paradigm of complementary split-ring resonators. This configuration allows both silicon-on-glass and free-standing metasurfaces and the arc length of the split-rings provides an extra tuning parameter. The nature of both BIC and non-BIC resonances supported by the metasurface is investigated by employing the Cartesian multipole decomposition technique. Thanks to the non-radiating nature of the quasi-BIC resonance, extremely high Q-factor responses are calculated, both by fitting the simulated transmittance spectra to an extended Fano model and by an eigenfrequency analysis. Furthermore, the effect of optical losses in silicon on quenching the achievable Q-factor values is discussed. The metasurface features a simple bulk geometry and sub-wavelength dimensions. This novel device, its high Q-factors, and strong energy confinement open new avenues of research on light-matter interactions in view of new applications in non-linear devices, biological sensors, and optical communications.

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 Autoría: Algorri J.F., Dellolio F., Roldán-Varona P., Rodríguez-Cobo L., López-Higuera J.M., Sánchez-Pena J.M., Zografopoulos D.C.,

 Fuente: Optics Express, 2021, 29(7), 10374-10385

Editorial: The Optical Society (OSA)

 Fecha de publicación: 29/03/2021

Nº de páginas: 12

Tipo de publicación: Artículo de Revista

 DOI: 10.1364/OE.415377

ISSN: 1094-4087

Proyecto español: PID2019-107270RB-C21

Url de la publicación: https://doi.org/10.1364/OE.415377