Plasma Photonic Crystals in Two-Dimensional Arrays of Microplasmas

In the study of photonic crystals, the question arises naturally: Which crystals produce the largest band gaps? This question is investigated by means of an optimizationbased evolution algorithm which, given two dielectric materials, seeks to produce a material distribution within the fundamental ce

A comparati¨e study of the electromagnetic beha¨ior of ( ) ( ) two types of unbounded two-dimensional 2-D photonic crystals PCs ( ) is presented. The first PC possesses a sinusoidal permitti¨ity SI profile, while the second one, constituted of an array of dielectric rods in air, ( ) presents a sharp

## Abstract We demonstrate near‐ultraviolet frequency two‐dimensional organic‐photonic‐crystal laser using resonator structures that offer two‐dimensional distributed feedback at room temperature. The gain medium is N,N′‐di‐1‐naphthyl‐N, N′‐diphenylbenzidine (NPB) which is deposited on lithographic

## Abstract Two‐dimensional (2D) photonic crystal of ZnO pillars was synthesized on silicon substrate by the combination of template method and vapor‐phase transport method. The microstructure and morphology of the ZnO photonic crystal was evaluated by using scanning electron microscope (SEM) and X

By using a tightly focused laser beam, we have studied light propagation in two-dimensional photonic crystals consisting of closed-packed hexagonal arrays of polystyrene particles with diameter of 1 ∼ 5 µm. The light propagation is found to depend strongly on the focal point positioning, the inciden