We study propagation of light beams in two-dimensional photonic lattices created by periodically curved waveguide arrays. We demonstrate that by designing the waveguide bending, one can control not only the strength and sign of the beam diffraction, but also to engineer the effective geometry and even dimensionality of the two-dimensional photonic lattice. We reveal that diffraction of different spectral components of polychromatic light can display completely different patterns in the same periodically modulated structure, e.g. one-dimensional, hexagonal, or rectangular. Our results suggest novel opportunities for efficient self-collimation, focusing, and reshaping of light beams in two-dimensional photonic structures
We report on the first experimental observation of dynamic localization of light in two-dimensional ...
Light propagation in uniform arrays of photonic crystal waveguides is studied. We demonstrate that, ...
We predict that stable mobile spatiotemporal solitons can exist in arrays of periodically curved opt...
We study propagation of light beams in two-dimensional photonic lattices created by periodically cu...
We suggest a novel type of photonic structures where the strength of diffraction can be managed in a...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
We show that coupled photonic crystal waveguides in hexagonal lattices offer very wide flexibility f...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We theoretically and experimentally study the nonlinear propagation of polychromatic light in curved...
We show that periodic distributions of gain or losses on the wavelength scale allow managing spatial...
Photonic structures with a periodic modulation of the optical refractive index open novel possibilit...
Applying an external driving to a periodic potential drastically modifies both propagation and local...
We introduce an analytical formula for the dynamics of light propagation in a two-dimensional wavegu...
We address the propagation of light beams in longitudinally modulated PT-symmetric lattices, built a...
We study subwavelength light propagation in arrays of coupled metal–dielectric waveguides with a per...
We report on the first experimental observation of dynamic localization of light in two-dimensional ...
Light propagation in uniform arrays of photonic crystal waveguides is studied. We demonstrate that, ...
We predict that stable mobile spatiotemporal solitons can exist in arrays of periodically curved opt...
We study propagation of light beams in two-dimensional photonic lattices created by periodically cu...
We suggest a novel type of photonic structures where the strength of diffraction can be managed in a...
We review both theoretical and experimental advances in the recently emerged field of modulated phot...
We show that coupled photonic crystal waveguides in hexagonal lattices offer very wide flexibility f...
We review both theoretical and experimental advances in the recently emerged field of modulated pho...
We theoretically and experimentally study the nonlinear propagation of polychromatic light in curved...
We show that periodic distributions of gain or losses on the wavelength scale allow managing spatial...
Photonic structures with a periodic modulation of the optical refractive index open novel possibilit...
Applying an external driving to a periodic potential drastically modifies both propagation and local...
We introduce an analytical formula for the dynamics of light propagation in a two-dimensional wavegu...
We address the propagation of light beams in longitudinally modulated PT-symmetric lattices, built a...
We study subwavelength light propagation in arrays of coupled metal–dielectric waveguides with a per...
We report on the first experimental observation of dynamic localization of light in two-dimensional ...
Light propagation in uniform arrays of photonic crystal waveguides is studied. We demonstrate that, ...
We predict that stable mobile spatiotemporal solitons can exist in arrays of periodically curved opt...