Asymmetric modulation instability in nonlinear metamaterial waveguides

Abstract: In this paper, we explore the formation of asymmetric modulation instability spectrum in the metamaterials as a result of the joined effect of self-steepening and intra-pulse Raman scattering. In general, the modulation instability gain spectrum is symmetric about the zero perturbation frequency. Here we observe asymmetric modulation instability gain spectrum and the asymmetry depends on the sign of the refractive index of the medium. When the refractive index of the medium is negative the band with high modula… Show more

“…The azimuthal modulation instability of optical vortices with different topological charges and the formation of necklace beams as a result of filamentation in metamaterial has been investigated [16]. The combined influence of self-steepening and intra-pulse Raman scattering results in the formation of asymmetric modulation instability spectrum in the metamaterial [17]. The presence of competing cubic and quintic nonlinearities in the metamaterial stabilizes the vortex beam dynamics [18].…”

Spatial modulation instability and filamentation of Gaussian beam in metamaterials

“…The azimuthal modulation instability of optical vortices with different topological charges and the formation of necklace beams as a result of filamentation in metamaterial has been investigated [16]. The combined influence of self-steepening and intra-pulse Raman scattering results in the formation of asymmetric modulation instability spectrum in the metamaterial [17]. The presence of competing cubic and quintic nonlinearities in the metamaterial stabilizes the vortex beam dynamics [18].…”

Spatial modulation instability and filamentation of Gaussian beam in metamaterials