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Presented here is a new approach for analysis of the so-called holey photonic crystals—a class of electro-optical components, in which periodicity of air holes in dielectric media is used for confinement of light. This class includes several kinds of microstructured fibers, semiconductor lasers etc. Accurate evaluation of optical characteristics of those devices is usually a complicated problem due...
We present a new approach for analysis of optical properties of holey photonic crystal devices. Our approach is based on the Extended coupled-mode formalism, developed for analysis of infinite photonic crystal lattices (arrays of identical coupled waveguides / lasers) and superlattices (periodic sequences of different coupled waveguides / lasers). Our method allows for a fast (tens of seconds) calculation...
Coupled Mode Theory (CMT) is a well-established formalism, which is widely used in the computation of the optical characteristics of photonic devices, matching the model of array of parallel waveguides [1]-[6]. In particular, it is applicable to 2D photonic crystal devices (i.e. arrays of coupled waveguides / phased laser arrays), in which light propagates along the optical axis of the component....
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