Add to ORKGWe predict new phenomena, such as soliton steering and soliton fission, in optical lattices that fade away exponentially along the propagation direction. Such lattices, featuring tunable decay rates, arise in photorefractive crystals in the wavelength range 360–400¿nm. We show that the predicted phenomena offer different opportunities for soliton control.Peer Reviewe
We address the impact of the asymmetric nonlocal diffusion nonlinearity of gap solitons supported by...
We investigate (1 + 1D) spatial optical solitons embedded in a fixed-volume grating in centrosymmetr...
Large two-dimensional spatial soliton arrays are generated experimentally and numerically in photore...
We predict new phenomena, such as soliton steering and soliton fission, in optical lattices that fad...
We study optical solitons in chirped periodic optical lattices whose amplitude or frequency changes ...
We have found analytical solutions of the light propagation equations in photorefractive materials w...
We present a summary of the recent results of our studies of nonlinear localization effects in optic...
We put forward new properties of lattice solitons in materials and geometries where both the linear ...
We extend investigation of one-dimensional solitons in biased photorefractive crystals to long propa...
We discuss soliton control in reconfigurable optically-induced photonic lattices created by three i...
We suggest a novel way of controlling mobility of solitons in optically-induced nonlinear lattices. ...
It is theoretically shown that Bloch (band to band) and soliton (gap to gap) transitions are possibl...
The spatial solitons can create reversible or irreversible single-mode waveguides in the propagating...
Considering nonlinear optical propagation through photorefractive crystals in which the bias voltage...
We address spectral tunneling of walking spatial solitons in photorefractive media with nonlocal dif...
We address the impact of the asymmetric nonlocal diffusion nonlinearity of gap solitons supported by...
We investigate (1 + 1D) spatial optical solitons embedded in a fixed-volume grating in centrosymmetr...
Large two-dimensional spatial soliton arrays are generated experimentally and numerically in photore...
We predict new phenomena, such as soliton steering and soliton fission, in optical lattices that fad...
We study optical solitons in chirped periodic optical lattices whose amplitude or frequency changes ...
We have found analytical solutions of the light propagation equations in photorefractive materials w...
We present a summary of the recent results of our studies of nonlinear localization effects in optic...
We put forward new properties of lattice solitons in materials and geometries where both the linear ...
We extend investigation of one-dimensional solitons in biased photorefractive crystals to long propa...
We discuss soliton control in reconfigurable optically-induced photonic lattices created by three i...
We suggest a novel way of controlling mobility of solitons in optically-induced nonlinear lattices. ...
It is theoretically shown that Bloch (band to band) and soliton (gap to gap) transitions are possibl...
The spatial solitons can create reversible or irreversible single-mode waveguides in the propagating...
Considering nonlinear optical propagation through photorefractive crystals in which the bias voltage...
We address spectral tunneling of walking spatial solitons in photorefractive media with nonlocal dif...
We address the impact of the asymmetric nonlocal diffusion nonlinearity of gap solitons supported by...
We investigate (1 + 1D) spatial optical solitons embedded in a fixed-volume grating in centrosymmetr...
Large two-dimensional spatial soliton arrays are generated experimentally and numerically in photore...