The excitation of photonic band-gap modes of all-solid photonic bandgap fibre (PBF) is considered. Inclusion of artificial structure defects allows to create absorption bands on desired wavelength range. Increase of the radius of two high-refractive index rods adjacent to PBF core allows to tailor transmission bands. The proposed approach is useful in PBF filters designing.
Dispersion tailoring using photonic crystal cladding for slot waveguide is proposed. Numerical modeling based on the Maxwell equation for Te and TM modes of the photonic crystal is performed. Slot waveguide provide high intencity at the central area. Photonic crystal cladding of the slot waveguide allow us to compensate high values of the host glass dispersion.
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