Confined photon modes with triangular symmetry in hexagonal microcavities in 2D photonic Crystals

Details Confined photon modes with triangular symmetry in hexagonal microcavities in 2D photonic Crystals Confined photon modes with triangular symmetry in hexagonal microcavities in 2D photonic Crystals

2007-02-18

arxiv.org/abs/cond-mat/0702423v2

Physics

Condensed Matter

Soft Condensed Matter

14 pages, 6 figures

Scientific paper

We present theoretical and experimental studies of the size and thickness dependencies of the optical emission spectra from microcavities with hexagonal shape in films of two-dimensional photonic crystal. A semiclassical plane-wave model, which takes into account the electrodynamic properties of quasi-2D planar photonic microcavity, is developed to predict the eigenfrequencies of the confined photon modes as a function of both the hexagon-cavity size and the film thickness. Modes with two different symmetries, triangular and hexagonal, are critically analyzed. It is shown that the model of confined photon modes with triangular symmetry gives a better agreement between the predicted eigenmodes and the observed resonances.

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