Jesper Riishede scite author profile

We present an electrically controlled photonic bandgap fiber device obtained by infiltrating the air holes of a photonic crystal fiber (PCF) with a dual-frequency liquid crystal (LC) with pre-tilted molecules. Compared to previously demonstrated devices of this kind, the main new feature of this one is its continuous tunability due to the fact that the used LC does not exhibit reverse tilt domain defects and threshold effects. Furthermore, the dual-frequency features of the LC enables electrical control of the spectral position of the bandgaps towards both shorter and longer wavelengths in the same device. We investigate the dynamics of this device and demonstrate a birefringence controller based on this principle.

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Material effects in air-guiding photonic bandgap fibers

Lægsgaard

Mortensen²,

Riishede

et al. 2003

J. Opt. Soc. Am. B

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The waveguiding properties of two silica-based airguiding photonic bandgap fiber designs are investigated with special emphasis on material effects. The nonlinear coefficients are found to be 1-2 orders of magnitude smaller than those obtained in index-guiding microstructured fibers with large mode areas.The material dispersion of silica makes a significant contribution to the total chromatic dispersion although less than 10% of the field energy is located in the silica regions of the fibers. These findings suggest that dispersion engineering through the choice of base material may be a possibility in this type of fibers.

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A poor man s approach to modelling micro-structured optical fibres

Riishede

Mortensen²,

Lægsgaard

2003

J. Opt. A: Pure Appl. Opt.

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Based on the scalar Helmholtz equation and the finite-difference approximation, we formulate a matrix eigenvalue problem for the calculation of propagation constants, β(ω), in micro-structured optical fibres. The method is applied to index-guiding fibres as well as air-core photonic bandgap fibres, and in both cases qualitatively correct results are found. The strength of this approach lies in its very simple numerical implementation and its ability to find eigenmodes at a specific eigenvalue, which is of great interest, when modelling defect modes in photonic bandgap fibres.

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Jesper Riishede

Photonic crystal fiber based evanescent-wave sensor for detection of biomolecules in aqueous solutions

Electrically tunable photonic bandgap guidance in a liquid-crystal-filled photonic crystal fiber

Continuously tunable devices based on electrical control of dual-frequency liquid crystal filled photonic bandgap fibers

Material effects in air-guiding photonic bandgap fibers

A poor man s approach to modelling micro-structured optical fibres

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