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We present an efficient computational methodology for full electrodynamic calculations of metallodielectric nanostructures
based on a multiple-scattering formulation of Maxwell's equations. The method, originally developed
for systems of spherical particles (MULTEM code), is extended to systems of particles of arbitrary shape and
applied to ordered structures of metallic nanodisks with an aspect ratio as large as five. We first discuss the particle
plasmon resonances of single metallic nanocylinders of different aspect ratios. Then, we study the plasmonic
excitations of square arrays of metal-dielectric-metal nanosandwiches and the optical response of a rectangular
lattice of metallic nanodisks on a dielectric waveguide. Finally we analyse the photonic band structure of a
simple cubic crystal of metallic nanodisks.
N. Papanikolaou,G. Gantzounis, andN. Stefanou
"Calculations of the optical response of metallodielectric nanostructures of nonspherical particles by a layer-multiple-scattering method", Proc. SPIE 6988, Nanophotonics II, 69881D (23 April 2008); https://doi.org/10.1117/12.778844
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N. Papanikolaou, G. Gantzounis, N. Stefanou, "Calculations of the optical response of metallodielectric nanostructures of nonspherical particles by a layer-multiple-scattering method," Proc. SPIE 6988, Nanophotonics II, 69881D (23 April 2008); https://doi.org/10.1117/12.778844