Localized modes in nonlinear photonic kagome nanoribbons
arXiv:1208.3793 · doi:10.1016/j.physleta.2012.08.055
Abstract
We examine localization of light in nonlinear (Kerr) kagome lattices in the shape of narrow strips of varying width. For the narrowest ribbon, the band structure features a flat band leading to linear dynamical trapping of an initially localized excitation. We also find a geometry-induced bistability of the nonlinear modes as the width of the strip is changed. A crossover from one to two dimensions localization behavior is observed as the width is increased, attaining two-dimensional behavior for relatively narrow ribbons.
4 pages, 8 figures, submitted for publication