All‐Dielectric Toroidal Metasurfaces for Angular‐Dependent Resonant Polarization Beam Splitting

Zografopoulos, Dimitrios C.; Algorri, José Francisco; Fuscaldo, Walter; López‐Higuera, José Miguel; Vergaz, Ricardo; Sánchez‐Pena, José Manuel; Κάρολος, Ίων-Αναστάσιος; Beccherelli, Romeo; Tsioukas, Vassilios; Yioultsis, Traianos V.; Kriezis, Emmanouil E.

doi:10.1002/adom.202002143

Cited by 23 publications

(13 citation statements)

References 69 publications

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“…The Fano resonance caused by the interference and coupling between the narrow discrete mode and broad spectrum has been used in many studies [ 23 , 24 , 25 , 26 ]. In recent years, the toroidal-dipole-supported Fano resonance has been implemented to concentrate the electromagnetic field in a small region of the substrate [ 27 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 ]. Gupta et al, proposed a two-dimensional metamaterial to acquire a Fano resonance derived from the toroidal dipole.…”

Section: Introductionmentioning

confidence: 99%

Low-Loss Dual-Band Transparency Metamaterial with Toroidal Dipole

et al. 2022

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In this paper, a low-loss toroidal dipole metamaterial composed of four metal split ring resonators is proposed and verified at microwave range. Dual-band Fano resonances could be excited by normal incident electromagnetic waves at 6 GHz and 7.23 GHz. Analysis of the current distribution at the resonance frequency and the scattered power of multipoles shows that both Fano resonances derive from the predominant novel toroidal dipole. The simulation results exhibit that the sensitivity to refractive index of the analyte is 1.56 GHz/RIU and 1.8 GHz/RIU. Meanwhile, the group delay at two Fano peaks can reach to 11.38 ns and 12.85 ns, which means the presented toroidal metamaterial has significant slow light effects. The proposed dual-band toroidal dipole metamaterial may offer a new path for designing ultra-sensitive sensors, filters, modulators, slow light devices, and so on.

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Section: Introductionmentioning

confidence: 99%

Low-Loss Dual-Band Transparency Metamaterial with Toroidal Dipole

et al. 2022

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“…Gorkunov et al [ 31 ] paid attention to the maximum chirality of circular polarized light, and proposed a method to achieve circular dichroism based on their quasi-BICs structure, which has potential in polarization modulation devices, optical sensing, chiral light sources, and so on. Zografopoulos et al [ 32 ] designed all-dielectric metamaterials with strong ring resonance for polarization beam splitting. These devices can perform their own polarization functions independently, but the single function may be a major limitation for the development of devices in the future.…”

Section: Introductionmentioning

confidence: 99%

A Bifunctional Silicon Dielectric Metasurface Based on Quasi-Bound States in the Continuum

Wang

Liu²,

Wei

et al. 2021

Nanomaterials

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Quasi-bound states in the continuum provide an effective and observable way to improve metasurface performance, usually with an ultra-high-quality factor. Dielectric metasurfaces dependent on Mie resonances have the characteristic of significantly low loss, and the polarization can be affected by the parameter tuning of the structure. Based on the theory of quasi-bound states in the continuum, we propose and simulate a bifunctional resonant metasurface, whose periodic unit structure consists of four antiparallel and symmetrical amorphous silicon columns embedded in a poly(methyl methacrylate) layer. The metasurface can exhibit an extreme Huygens’ regime in the case of an incident plane wave with linear polarization, while exhibiting chirality in the case of incident circular polarized light. Our structure provides ideas for promoting the multifunctional development of flat optical devices, as well as presenting potential in polarization-dependent fields.

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“…Towards the opposite side of the spectrum, hydrogenated amor-phous Si has been demonstrated as a suitable material in a mid-IR qBIC metasurface 51 , whereas high-resistivity Si (HR-Si) 19,52,53 is the most suitable choice at terahertz (THz) frequencies thanks to its very low carrier concentration and, hence, low absorption losses, and also owing to the overall lack of transparent materials at THz. High-permittivity ceramic or polymer-ceramic composites provide a readily available solution for the demonstration of qBIC metasurface concepts at microwave frequencies 13,26,32,54,55 , although absorption losses stemming from the substrate can contribute considerably to resonance quenching 14,56 .…”

Section: Absorption Lossesmentioning

confidence: 99%

“…High-permittivity ceramic or polymer-ceramic composites provide a readily available solution for the demonstration of qBIC metasurface concepts at microwave frequencies, 13,26,32,54,55 although absorption losses stemming from the substrate can contribute considerably to resonance quenching. 14,56 The effective loss coefficient of a dielectric material can be increased by adding scattering losses stemming from surface roughness, which inevitably results from the etching process to define the metasurface elements. The effect of absorption/ scattering losses can be taken into account in simulations, estimating the saturation of the Q-factor in the low-asymmetry limit, where Q r 4 Q nr .…”

Section: Quest For High Quality Factorsmentioning

confidence: 99%