Semiconductor Physics, Quantum Electronics & Optoelectronics. 2012. V. 15, N 3. P. 200-203.
DOI: https://doi.org/10.15407/spqeo15.03.200


Grating and plasmon resonances in the scattering of light by finite silver nanostrip gratings
O.V. Shapoval1, R. Sauleau2, A.I. Nosich1

1Institute of Radio-Physics and Electronics, NAS of Ukraine, 12, Proskury str., 61085 Kharkiv, Ukraine E-mail: olga.v.shapoval@gmail.com
2IETR, University of Rennes 1, Campus Beaulieu, bat 11-D, 35042 Rennes Cedex, France E-mail: ronan.sauleau@univ-rennes1.fr

Abstract. We study numerically the H-polarized wave scattering by finite flat gratings of N silver nanostrips in free space in the context of co-existence of surface plasmon resonances (SPR) and periodicity-induced grating resonances (GRs). The accurate numerical analysis is carried out using the previously developed combination of two-side generalized boundary conditions imposed on the strip median lines and Nystrom-type discretization of the relevant singular and hyper-singular integral equations. Our computations are focused on specific periodicity-caused coupling which leads to the existence of the grating or lattice resonances near to λG = p/m, m = 1, 2,… (at normal incidence). These resonances result in large reflection, transmission, absorption, and near-field enhancement. We also study the interplay of SPR and GR, if they approach each other and the optical response dependence of the grating parameters, such as overall dimension and number of strips.

Keywords: finite nanostrip grating, surface plasmon resonance, grating resonance, two-side generalized boundary conditions, singular and hyper-singular integral equations, Nystrom-type discretization.

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