Abstract:A comparative investigation is performed for examining the co‐ and cross‐polarized reflection and transmission characteristics of some bianisotropic slabs with or without a backed soft and hard surface (SHS), respectively. The bianisotropic models treated here possess certain magnetic groups of symmetries, such as D∞(C∞) and D∞h(C∞ν). Numerical examples are presented to show the effects resulting from changing the magnetic groups as well as the conductivity direction on SHS on the co‐ and cross‐polarized refle… Show more
“…Bianisotropic and isotropic chiral media that can be used for PCs are very interesting from both theoretical and experimental points of view. It has been studied an infinite medium in [7,8], bounded structure in [9,10]. However the problem of theoretical study of bianisotropic PCs is not completed for today.…”
A one-dimension photonic crystal containing usual isotropic, backward wave, and bianisotropic (anisotropic) layers is investigated by using the translation matrix method. The particular cases of the problem of layer rearrangement within a period is considered. It is describe the types of photonic crystals that have the same bandgap and the photonic crystals that have no bandgap.Introduction.
“…Bianisotropic and isotropic chiral media that can be used for PCs are very interesting from both theoretical and experimental points of view. It has been studied an infinite medium in [7,8], bounded structure in [9,10]. However the problem of theoretical study of bianisotropic PCs is not completed for today.…”
A one-dimension photonic crystal containing usual isotropic, backward wave, and bianisotropic (anisotropic) layers is investigated by using the translation matrix method. The particular cases of the problem of layer rearrangement within a period is considered. It is describe the types of photonic crystals that have the same bandgap and the photonic crystals that have no bandgap.Introduction.
This article reviews and summarizes the research and development work conducted in the area of microwave complex media, with emphasis on (1) clarification of bianisotropic media and (2) typical methodologies. Many application examples are included to address issues in the complex media, where partial solutions are provided as well.
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