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Design and optimisation of planar waveguide network components based on optical microcavities

Design and optimisation of planar waveguide network components based on optical microcavities,10.1109/LEOS.2003.1253060,Svetlana V. Boriskina,Carl Sty

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Design and optimisation of planar waveguide network components based on optical microcavities   (Citations: 4)
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A boundary integral equation method is combined with a genetic algorithm to simulate and optimise dielectric and semiconductor microcavities. Waveguide filters and microlaser resonators are tuned by modifying the microcavity shape, coupling mechanism, gain/loss.
Conference: Lasers and Electro-Optics Society, IEEE LEOS Annual Meeting - PHO , vol. 2, pp. 836-837 vol.2, 2003
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    • ...These include wavelength selection [1-4], micro-lasers [5, 6], all optical switching [7], and optical memory [8]...
    • ...The very flexible approach adopted in [1-4, 20-24] is based upon a combination of the Green’s function method and the Method of Analytical Regularization (MAR)...

    T. M. Bensonet al. Microcavities: an inspiration for advanced modelling techniques

    • ...We have combined the integral equation methods with the adaptive algorithms described in the previous section and used the resulting algorithm for a singlemode filter design which enables the suppression of parasitic resonances, optimizing for high-Q filtering at a given wavelength [17]...

    Phillip Sewellet al. Design Tools for Photonics: Rising to the

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