Abstract
The supercontinuum generation in an anisotropic microstructure fiber with periodic modulation of hole ellipticity has been numerically simulated. The structure proposed makes it possible to alternate fiber segments with positive and negative differences in group velocities, thus affecting the interaction of pulses with orthogonal polarizations. This configuration makes it possible to effectively control supercontinuum generation. The dynamics of polarized solitons in a microstructure fiber with high nonlinearity is simulated using the modified Schrodinger equation, including the stimulated Raman scattering and higher order dispersion.
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