Add to ORKGWe reveal that the effective diffraction experienced by light beams launched along the central guiding channel of optical lattice with a quadratic frequency modulation can be tuned in strength and sign. Complete suppression of the linear diffraction in the broad band of spatial frequencies is shown to be possible, thus profoundly affecting properties of nonlinear self-sustained beams as well. In particular, we report on the properties of a new class of stable solitons supported by such lattices in defocusing media.Peer Reviewe
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...
We study theoretically and experimentally the propagation of optical solitons in a lattice nonlinear...
We observe the formation of discrete diffraction-managed optical solitons in arrays of periodically ...
We reveal that the effective diffraction experienced by light beams launched along the central guidi...
We investigate the propagation of intense light beams in bulk quadratic nonlinear crystals under con...
We address the propagation of light beams in longitudinally modulated PT-symmetric lattices, built a...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
We put forward new properties of lattice solitons in materials and geometries where both the linear ...
We investigate the propagation of intense light beams in bulk quadratic nonlinear crystals under con...
By using optically-induced photonic lattices as tunable periodic structures, we demonstrate the key ...
Wo study the properties of nonlinear waves localized at an interlace between two different optical l...
The subject of the work is the stabilization of two-dimensional (2D) two-component (vector) solitons...
Summary form only given. In this paper we report the outcome of our comprehensive investigations to ...
We report the observation of deflection of optical solitons generated in the frequency doubling of l...
We review our experimental development in the field of optical lattices, emphasizing their unique pr...
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...
We study theoretically and experimentally the propagation of optical solitons in a lattice nonlinear...
We observe the formation of discrete diffraction-managed optical solitons in arrays of periodically ...
We reveal that the effective diffraction experienced by light beams launched along the central guidi...
We investigate the propagation of intense light beams in bulk quadratic nonlinear crystals under con...
We address the propagation of light beams in longitudinally modulated PT-symmetric lattices, built a...
In this chapter, we present a review of optical systems that have a periodic variation in their inde...
We put forward new properties of lattice solitons in materials and geometries where both the linear ...
We investigate the propagation of intense light beams in bulk quadratic nonlinear crystals under con...
By using optically-induced photonic lattices as tunable periodic structures, we demonstrate the key ...
Wo study the properties of nonlinear waves localized at an interlace between two different optical l...
The subject of the work is the stabilization of two-dimensional (2D) two-component (vector) solitons...
Summary form only given. In this paper we report the outcome of our comprehensive investigations to ...
We report the observation of deflection of optical solitons generated in the frequency doubling of l...
We review our experimental development in the field of optical lattices, emphasizing their unique pr...
Light propagating in linear and nonlinear waveguide lattices exhibits behaviour characteristic of th...
We study theoretically and experimentally the propagation of optical solitons in a lattice nonlinear...
We observe the formation of discrete diffraction-managed optical solitons in arrays of periodically ...