Bloch mode scattering matrix methods for modelling extended photonic crystal devices

Lindsay Botten; A A. Asatryan; T N. Langtry; T P. White; C. Martijn de Sterke; R C. McPhedran

doi:10.1364/IPR.2004.IFE1

Optical Amplifiers and Their Applications/Integrated Photonics Research
Technical Digest (CD) (Optica Publishing Group, 2004),
paper IFE1
•https://doi.org/10.1364/IPR.2004.IFE1

Bloch mode scattering matrix methods for modeling extended photonic crystal devices

L. C. Botten, A. A. Asatryan, T. N. Langtry, T. P. White, C. Martijn de Sterke, and R. C. McPhedran

Integrated Photonics Research 2004

San Francisco, California United States
30 June–2 July 2004
ISBN: 1-55752-774-1

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Photonic Crystal Modeling (IFE)

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L. Botten, A. A. Asatryan, T. N. Langtry, T. P. White, C. M. de Sterke, and R. C. McPhedran, "Bloch mode scattering matrix methods for modelling extended photonic crystal devices," in Optical Amplifiers and Their Applications/Integrated Photonics Research, Technical Digest (CD) (Optica Publishing Group, 2004), paper IFE1.

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Abstract

A rigorous semi-analytic approach to the modelling of coupling, guiding and propagation in complex microstructures embedded in photonic crystals is presented. The method, based on Bloch modes and generalized Fresnel coefficients, is outlined and a variety of applications of the design tool are presented.

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