Gap random-phase lattice solitons (CROSBI ID 115366)
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Podaci o odgovornosti
Pezer, Robert ; Buljan, Hrvoje ; Fleischer, J.W. ; Bartal, G. ; Cohen, O. ; Segev, M.
engleski
Gap random-phase lattice solitons
We theoretically study gap random-phase lattice solitons ( gap-RPLSs) in nonlinear waveguide arrays with self-defocusing nonlinearity. We find that the intensity structure and statistical ( coherence) properties of gap-RPLSs conform to the lattice periodicity, while their Floquet-Bloch power spectrum is multi-humped with peaks in the anomalous diffractions regions. It is shown that a gap-RPLS can be generated when a simple incoherent beam with bell-shaped power spectrum and single-hump intensity is launched at a proper angle into the waveguide array. The input incoherent beam evolves in the lattice while shedding off some radiation, and eventually attains the features of gap-RPLS.
spatially incoherent-light; nonlinear photonic lattices; wave-guide arrays; modulation instability; optical solitons; media; beams
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