Two-dimensional function photonic crystal

Abstract: Photonic crystal is a kind of periodic optical nanostructure consisting of two or more materials with different dielectric constants, which has attracted great deal of attention because of its wide range of potential applications in the field of optics. Photonic crystal can be fabricated into one-, or two-, or three- dimensional one. Among them, the two-dimensional photonic crystal turns into a hot focus due to its fantastic optical and electrical properties and relatively simple fabrication technique. Since t… Show more

“…Comprising spatially periodic structures, photonic crystals are constructed from multiple materials with differing dielectric constants, essentially serving as dielectrics. In the past few decades, photonic crystals can be used to control light [2]. Furthermore, the remarkable achievements in managing electromagnetic wave transmission and interaction with materials are significantly represented by photonic crystals.…”

“…Typically, a photonic crystal's performance stability increases with the broadening of its band gap [7][8]. Popular techniques for analyzing photonic crystals include the plane wave expansion, finite element, transfer matrix, and finite-difference time-domain methods [2,9,10]. These methods have their own advantages and disadvantages.…”

Simulation Computation of Two-dimensional Hexagonal Honeycomb Photonic Crystals Energy Band Structure Based on COMSOL

“…Comprising spatially periodic structures, photonic crystals are constructed from multiple materials with differing dielectric constants, essentially serving as dielectrics. In the past few decades, photonic crystals can be used to control light [2]. Furthermore, the remarkable achievements in managing electromagnetic wave transmission and interaction with materials are significantly represented by photonic crystals.…”

“…Typically, a photonic crystal's performance stability increases with the broadening of its band gap [7][8]. Popular techniques for analyzing photonic crystals include the plane wave expansion, finite element, transfer matrix, and finite-difference time-domain methods [2,9,10]. These methods have their own advantages and disadvantages.…”

Simulation Computation of Two-dimensional Hexagonal Honeycomb Photonic Crystals Energy Band Structure Based on COMSOL

Design and Characterization of Line-Defected Silicon Waveguide and High-Q Optical Cavity