Shaping and control of polychromatic light in nonlinear photonic lattices
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Neshev, Dragomir
Sukhorukov, Andrey
Kivshar, Yuri
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Optical Society of America
Abstract
We overview our recent results on spatio-spectral control,
diffraction management, broadband switching, and self-trapping of polychromatic
light in periodic photonic lattices in the form of rainbow gap
solitons, polychromatic surface waves, and multigap color breathers. We
show that an interplay of wave scattering from a periodic structure and
interaction of multiple colors in media with slow nonlinear response can
be used to selectively separate or combine different spectral components.
We use an array of optical waveguides fabricated in a LiNbO3 crystal to
actively control the output spectrum of the supercontinuum radiation and
generate polychromatic gap solitons through a sharp transition from spatial
separation of spectral components to the simultaneous spatio-spectral localization
of supercontinuum light. We also show that by introducing specially
optimized periodic bending of waveguides in the longitudinal direction, one
can manage the strength and type of diffraction in an ultra-broad spectral
region and, in particular, realize the multicolor Talbot effect.
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Optics Express 15.20 (2007): 13058-13076
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Optics Express
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