We investigate numerically and experimentally the influence of coupling disorder on the self-trapping dynamics in nonlinear one-dimensional optical waveguide arrays. The existence of a lower and upper bound of the effective average propagation constant allows for a generalized definition of the threshold power for the onset of soliton localization. When compared to perfectly ordered systems, this threshold is found to decrease in the presence of coupling disorder. (C) 2013 Optical Society of Americ
Nonlinearity and disorder in discrete systems give rise to fascinating dynamics in various fields of...
We study dynamical reshaping of polychromatic beams due to collective nonlinear self-action of multi...
We address soliton transmission and reflection in nonlinear photonic lattices embedded into uniform ...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We study managing of light beam propagation by competing disorder and nonlinearity in one-dimensiona...
We study managing of light beam propagation by competing disorder and nonlinearity in one-dimensiona...
We predict a sharp crossover from self-defocusing to discrete localization in photonic lattices with...
We investigate light localization in quasi-periodic nonlinear photonic lattices (PLs) composed of tw...
We predict a sharp crossover from self-defocusing to discrete localization in photonic lattices with...
We study dynamical reshaping of polychromatic beams due to collective nonlinear self-action of mult...
We predict a sharp crossover from nonlinear self-defocusing to discrete self-trapping of a narrow Ga...
We address soliton transmission and reflection in nonlinear photonic lattices embedded into uniform ...
Nonlinearity and disorder in discrete systems give rise to fascinating dynamics in various fields of...
We study dynamical reshaping of polychromatic beams due to collective nonlinear self-action of multi...
We address soliton transmission and reflection in nonlinear photonic lattices embedded into uniform ...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We investigate numerically and experimentally the influence of coupling disorder on the self-trappin...
We study managing of light beam propagation by competing disorder and nonlinearity in one-dimensiona...
We study managing of light beam propagation by competing disorder and nonlinearity in one-dimensiona...
We predict a sharp crossover from self-defocusing to discrete localization in photonic lattices with...
We investigate light localization in quasi-periodic nonlinear photonic lattices (PLs) composed of tw...
We predict a sharp crossover from self-defocusing to discrete localization in photonic lattices with...
We study dynamical reshaping of polychromatic beams due to collective nonlinear self-action of mult...
We predict a sharp crossover from nonlinear self-defocusing to discrete self-trapping of a narrow Ga...
We address soliton transmission and reflection in nonlinear photonic lattices embedded into uniform ...
Nonlinearity and disorder in discrete systems give rise to fascinating dynamics in various fields of...
We study dynamical reshaping of polychromatic beams due to collective nonlinear self-action of multi...
We address soliton transmission and reflection in nonlinear photonic lattices embedded into uniform ...
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