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Infrared dielectric metamaterials from high refractive index chalcogenides

H. N. S. Krishnamoorthy, G. Adamo, J. Yin, V. Savinov, N. I. Zheludev, C. Soci

2020Nature Communications72 citationsDOIOpen Access PDF

Abstract

Abstract High-index dielectric materials are in great demand for nanophotonic devices and applications, from ultrathin optical elements to metal-free sub-diffraction light confinement and waveguiding. Here we show that chalcogenide topological insulators are particularly apt candidates for dielectric nanophotonics architectures in the infrared spectral range, by reporting metamaterial resonances in chalcogenide crystals sustained well inside the mid-infrared, choosing Bi 2 Te 3 as case study within this family of materials. Strong resonant modulation of the incident electromagnetic field is achieved thanks to the exceptionally high refractive index ranging between 7 and 8 throughout the 2–10 μm region. Analysis of the complex mode structure in the metamaterial allude to the excitation of circular surface currents which could open pathways for enhanced light-matter interaction and low-loss plasmonic configurations by coupling to the spin-polarized topological surface carriers, thereby providing new opportunities to combine dielectric, plasmonic and magnetic metamaterials in a single platform.

Topics & Concepts

MetamaterialNanophotonicsChalcogenidePlasmonOptoelectronicsDielectricMaterials scienceRefractive indexSurface plasmonPhotonic metamaterialExcitationInfraredChalcogenide glassPolaritonPhotonic crystalOpticsHigh-refractive-index polymerSurface plasmon polaritonFano resonanceTopological insulatorPhotonicsElectromagnetic fieldTerahertz radiationCoupling (piping)Surface waveTransformation opticsMetamaterial absorberSplit-ring resonatorElectromagnetic radiationElectromagneticsField (mathematics)Dispersion (optics)Topological Materials and PhenomenaMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research
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