We study resonant light scattering in arrays of channel optical waveguides in which tunable quadratic non-linearity is introduced as nonlinear defects by periodic poling of single (or several) waveguides in the array. We describe novel features of wave scattering that can be observed in this structure and show that it is a good candidate for observation of Fano resonance in nonlinear optics. © 2005 Optical Society of America
International audienceWe investigate a time-harmonic wave problem in a waveguide. By means of asympt...
We study light localization at a phase-slip defect created by two semi-infinite mismatched identica...
We consider the process of light scattering by optical solitons in a planar waveguide with homogeneo...
We study resonant light scattering in arrays of channel optical waveguides where tunable quadratic ...
We study linear and nonlinear transmission of photonic networks and nanoscale devices based on direc...
We analyze the properties and stability of two-color discrete localized modes in arrays of channel w...
We demonstrate experimentally the existence of competing focusing and defocusing nonlinearities in a...
Fano resonances manifest novel phenomena both in linear and nonlinear response of plasmonic nanomate...
We study the wave scattering in an one-dimensional discrete system with two side-coupled defects. Ea...
We employ an effective discrete model for the study of wave propagation in a photonic crystal wavegu...
We demonstrate that high transmission through sharp bends in photonic crystal waveguides can be des...
The analogy of optical system to other physical systems has been attracting much attention over the ...
Quadratic nonlinearities in waveguide arrays enable ultra-fast all-optical shaping, switching, and r...
A route toward line-shape engineering of Fano resonances in photonic structures is theoretically pro...
Two Fano resonances are theoretically predicted in a single defect nanocavity, consisting of a recta...
International audienceWe investigate a time-harmonic wave problem in a waveguide. By means of asympt...
We study light localization at a phase-slip defect created by two semi-infinite mismatched identica...
We consider the process of light scattering by optical solitons in a planar waveguide with homogeneo...
We study resonant light scattering in arrays of channel optical waveguides where tunable quadratic ...
We study linear and nonlinear transmission of photonic networks and nanoscale devices based on direc...
We analyze the properties and stability of two-color discrete localized modes in arrays of channel w...
We demonstrate experimentally the existence of competing focusing and defocusing nonlinearities in a...
Fano resonances manifest novel phenomena both in linear and nonlinear response of plasmonic nanomate...
We study the wave scattering in an one-dimensional discrete system with two side-coupled defects. Ea...
We employ an effective discrete model for the study of wave propagation in a photonic crystal wavegu...
We demonstrate that high transmission through sharp bends in photonic crystal waveguides can be des...
The analogy of optical system to other physical systems has been attracting much attention over the ...
Quadratic nonlinearities in waveguide arrays enable ultra-fast all-optical shaping, switching, and r...
A route toward line-shape engineering of Fano resonances in photonic structures is theoretically pro...
Two Fano resonances are theoretically predicted in a single defect nanocavity, consisting of a recta...
International audienceWe investigate a time-harmonic wave problem in a waveguide. By means of asympt...
We study light localization at a phase-slip defect created by two semi-infinite mismatched identica...
We consider the process of light scattering by optical solitons in a planar waveguide with homogeneo...