Fast and highly accurate method based on the Muller contour integral equations and a spectral Galerkin discretization technique is presented for spectral design and optimization of whispering-gallery (WG) mode microdisk resonator clusters and photonic crystal (PC) defect cavities. WG-mode photonic molecules and photonic crystal defect cavity configurations with high quality factors and directional emission patterns are designed by tailoring cavity shapes, inter-cavity coupling distances, defect geometries, etc. It is shown that highly directional emission can be achieved in complex non-symmetrical photonic molecules, and ways to remove the degeneracy (or near-degeneracy) of PC cavity modes and photonic molecule modes are discussed.
Modeling and optimization of optical microcavity clusters and photonic crystal defect cavities
01.01.2005
1714808 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Modeling and Optimization of Optical Microcavity Clusters and Photonic Crystal Defect Cavities
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