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Scattering of light by a periodic array of metal-coated nanocylinders located on a dielectric slab is analyzed by using a semi-analytical method based on a recursive algorithm combined with the lattice sums technique. The resonance phenomena observed in the spectral responses of the scattered field are numerically investigated.
Light scattering by the metal-coated nano-cylinders symmetrically distributed on a circular cylindrical surface with multilayered structure is analyzed by using a semi-analytical method based on the T-matrix and generalized reflection and transmission matrices for cylindrical waves. The surface plasmon resonances observed in the spectral responses of the scattered field are numerically investigated.
Interaction of light with the metallic nanostructures gives rise to various novel effects in photonics and optoelectronics [1]. Research of surface plasmons and their excitation by light is of particular interest in the studies of metamaterials, optical antennas, plasmonic sensors, and plasmonic crystals. The enhanced surface plasmon resonance in noble metallic systems at optical frequencies is expected...
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