Title :
Electrodynamic analysis of ring and disk nanoarrays
Author :
Ivanova, I.N. ; Lerer, A.M. ; Golovacheva, E.V.
Author_Institution :
Phys. Dept., Southern Fed. Univ., Rostov-on-Don, Russia
Abstract :
The boundary problem of diffraction electromagnetic waves on two-dimensional periodic metal gratings has been solved with taking into account finite permittivity of metal in the optic range. The suggested technique is based on approach of approximate boundary conditions for thin dielectric layers. It is pointed out that dependence of magnitude of a scattered field on wavelength has resonant behavior and resonant wavelength is many times higher than size of cell of grating. It is shown the possibility of designing of grating with high reflection coefficient at frequencies of plasmon resonance.
Keywords :
diffraction gratings; electrodynamics; light diffraction; light reflection; nanophotonics; optical arrays; optical design techniques; permittivity; surface plasmon resonance; approximate boundary conditions; boundary problem; diffraction electromagnetic waves; disk nanoarrays; electrodynamic analysis; finite permittivity; grating cell size; grating designing; optic range; plasmon resonance; reflection coefficient; resonant behavior; resonant wavelength; ring nanoarrays; scattered field magnitude; thin dielectric layers; two-dimensional periodic metal gratings; Boundary conditions; Optical polarization;
Conference_Titel :
Microwave & Telecommunication Technology (CriMiCo), 2014 24th International Crimean Conference
Conference_Location :
Sevastopol
Print_ISBN :
978-966-335-412-5
DOI :
10.1109/CRMICO.2014.6959632
