Natarov, D. M.Benson, T. M.Altıntaş, AyhanSauleau, R.Nosich, A. I.2016-02-082016-02-082010http://hdl.handle.net/11693/28549Date of Conference: 27 June-1 July 2010Conference Name: 12th International Conference on Transparent Optical Networks, IEEE 2010The problem of the H-polarized wave scattering by finite chains of circular nanowires is considered. A two-dimensional diffraction problem with rigorous boundary conditions is solved by partial separations of variables method using local polar coordinates of each scatterer. The obtained results demonstrate convergence of the algorithm and good agreement with data known for the conducting and dielectric cylinders. Plasmonic and grid resonances are found and calculated for grids from a big number of silver nanowires. This opens a way to the accurate numerical simulation of various finite configurations of wires met in today's nano and microsize photonic devices.EnglishAbsorption scattering cross sectionNanowiresPlasmon and grid resonancesElectromagnetic scatteringNumerical simulationPartial separationScattering cross sectionTotal scattering cross sectionsTwo dimensional diffractionConvergence of numerical methodsElectric resistance measurementElectromagnetic wave scatteringFiber optic networksTransparent optical networksPlasmon and grid resonances in the electromagnetic scattering by finite grids of silver nanowiresConference Paper10.1109/ICTON.2010.5548998