![]() Helfert, S.F.: Introducing oblique coordinates in numerical methods, applied to the computation of band structures. ![]() Helfert S.F.: Applying oblique coordinates to the method of lines. Helfert S.F.: Determination of Floquet-modes in asymmetric periodic structures. Helfert S.F.: Numerical stable determination of Floquet-modes and the application to the computation of band structures. Guo S., Albin S.: Numerical technique for excitation and analysis of defect modes in photonic crystals. ![]() 17, 58–60 (2005)Įdelmann A.G., Helfert S.F.: Three-dimensional analysis of hexagonal structured photonic crystals using oblique coordinates. IEEE press, New York (1991)Ĭryan M.J., Wong D.C.L., Craddock I.J., Yu S., Rorison J., Railton C.J.: Electromagnetic analysis of photonic crystals waveguide operating above the light cone. 19, 335–338 (2002)Ĭollin R.E.: Field Theory of Guided Waves, 2nd edn, Series of Electromagnetic Waves. 34, 195–203 (2002)Ĭao Q., Lalanne P., Hugonin J.P.: Stable and efficient Bloch-mode computational method for one–dimensional grating waveguides. ![]() 33, 327–341 (2001)īogaerts W., Bienstman P., Taillaert D., Baets R., De-Zutter D.: Out-of-plane scattering in 1-D photonic crystal slabs. 31, 689–703 (1999)īienstman P., Baets R.: Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers. Benson T.M., Sewell P., Sujecki S., Kendall P.C.: Structure related beam propagation.
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