Nonlinear propagation of laser beams in 1D array of optically induced waveguides is investigated. The array is generated
by two stationary plane waves and third steering wave interfering in slab waveguide core made of photorefractive
material with a quadratic electrooptic effect. The possibility of controlled propagation of light by change of parameters
of steering wave is analysed.
We investigate nonlinear propagation of light in 1D array of optically induced waveguides. The array is generated by two plane waves interfering in slab waveguide core made of photorefractive material with a quadratic electrooptic effect. The influence of the guided wave on the refractive index distribution of the array and the possibility of discrete solitons generation is considered.
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