Light propagation in uniform arrays of photonic crystal waveguides is studied. We demonstrate that, in stark contrast to the case of conventional waveguide arrays, diffraction can be tailored both in magnitude and sign by varying only the spacing between adjacent waveguides. Diffraction management in ultracompact arrays of straight photonic crystal waveguides is demonstrated by solving Maxwell’s equations through the time-domain finite-element method
Light propagation in multimode photonic crystal (PC) waveguides and in arrays of single-mode PC wave...
We study propagation losses in slow light photonic crystal waveguides and show that dispersion engin...
International audienceWe study light propagation in nanoscale periodic structures composed of dielec...
International audienceWe derive an analytical diffraction relation and a numerical angular signature...
We show that coupled photonic crystal waveguides in hexagonal lattices offer very wide flexibility f...
International audienceLight propagation in multimode photonic crystal waveguides and in arrays of si...
The behaviour of an array of photonic crystal waveguides is numerically investigated. It is shown th...
We present a semi-analytic method to calculate the dispersion curves and the group velocity of photo...
International audienceWe study light propagation in nanoscale periodic structures composed of dielec...
We study propagation of light beams in two-dimensional photonic lattices created by periodically cur...
To investigate light propagation in photonic crystal structures, the finite element method is employ...
We show that diffraction of light can be controlled in waveguide arrays. Diffraction can be arrested...
Photonic crystals are artificial dielectric lattice structures which may be periodic in up to three ...
The one- and two dimensional waveguide arrays in the case of the electromagnetic wave propagating on...
Abstract. The subject of this PhD thesis is the study of photonic crystal waveguides that incorporat...
Light propagation in multimode photonic crystal (PC) waveguides and in arrays of single-mode PC wave...
We study propagation losses in slow light photonic crystal waveguides and show that dispersion engin...
International audienceWe study light propagation in nanoscale periodic structures composed of dielec...
International audienceWe derive an analytical diffraction relation and a numerical angular signature...
We show that coupled photonic crystal waveguides in hexagonal lattices offer very wide flexibility f...
International audienceLight propagation in multimode photonic crystal waveguides and in arrays of si...
The behaviour of an array of photonic crystal waveguides is numerically investigated. It is shown th...
We present a semi-analytic method to calculate the dispersion curves and the group velocity of photo...
International audienceWe study light propagation in nanoscale periodic structures composed of dielec...
We study propagation of light beams in two-dimensional photonic lattices created by periodically cur...
To investigate light propagation in photonic crystal structures, the finite element method is employ...
We show that diffraction of light can be controlled in waveguide arrays. Diffraction can be arrested...
Photonic crystals are artificial dielectric lattice structures which may be periodic in up to three ...
The one- and two dimensional waveguide arrays in the case of the electromagnetic wave propagating on...
Abstract. The subject of this PhD thesis is the study of photonic crystal waveguides that incorporat...
Light propagation in multimode photonic crystal (PC) waveguides and in arrays of single-mode PC wave...
We study propagation losses in slow light photonic crystal waveguides and show that dispersion engin...
International audienceWe study light propagation in nanoscale periodic structures composed of dielec...