Resonance properties of optical all-dielectric metamaterials using two-dimensional multipole expansion
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In this article, the electromagnetic response of rod-type metamaterials is studied in terms of electric and magnetic multipole moments that are simultaneously generated via the polarization currents that are excited upon the incidence of plane waves.Abstract:
We examine the electromagnetic response of metamaterial unit elements consisting of dielectric rods embedded in a nonmagnetic background medium. We establish a theoretical framework in which the response is described through the electric and magnetic multipole moments that are simultaneously generated via the polarization currents that are excited upon the incidence of plane waves. The corresponding dipole and quadrupole polarizabilities are then calculated as a function of the Mie scattering coefficients, and their resonances are mapped for the case of dielectric cylindrical rods as a function of the geometry and the material parameters used. The results provide critical insight into the anisotropic response of two-dimensional rod-type metamaterials and can be used as a unified methodology in the calculation of exotic effective electromagnetic parameters involved in phenomena such as optical magnetism.read more
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Ultra-sparse metasurface for high reflection of low-frequency sound based on artificial Mie resonances
TL;DR: An ultraslow-fluid-like particle with intense artificial Mie resonances for low-frequency airborne sound and a 0.15λ-thick, 15%-filling ratio metasurface with an insertion loss over 93.4%.
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Plasmonic metasurfaces for efficient phase control in reflection
TL;DR: It is shown how a combination of metal nanobrick and nanocross elements allows one to fully control the phase of reflected light for two orthogonal polarizations simultaneously, in relation to birefringent metal-backed metasurfaces.
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Phase diagram for the transition from photonic crystals to dielectric metamaterials
Mikhail V. Rybin,Dmitry Filonov,Kirill B. Samusev,Kirill B. Samusev,Pavel A. Belov,Yuri S. Kivshar,Yuri S. Kivshar,Mikhail F. Limonov,Mikhail F. Limonov +8 more
TL;DR: It is shown that a periodic photonic structure transforms into a metamaterial when the Mie gap opens up below the lowest Bragg bandgap where the homogenization approach can be justified and the effective permeability becomes negative.
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Invisible nanowires with interfering electric and toroidal dipoles.
TL;DR: In this article, the role of toroidal multipole excitation in multipole expansions of radiating sources was revealed by studying the scattering of normally incident plane waves by a single nanowire, and it was found that toroidal dipoles can be effectively excited within homogenous dielectric nanowires in the optical spectrum regime.