English

Semidiscrete vortex solitons

Pattern Formation and Solitons 2021-02-02 v2 Optics

Abstract

We demonstrate a possibility of the creation of stable optical solitons combining one continuous and one discrete coordinate, with embedded vorticity, in an array of planar waveguides with intrinsic cubic-quintic nonlinearity. The same system may be realized in terms of the spatiotemporal light propagation in an array of tunnel-coupled optical fibers with the cubic-quintic nonlinearity. In contrast with zero-vorticity states, semidiscrete vortex solitons do not exist without the quintic term in the nonlinearity. Two types of the solitons, \emph{viz.}, intersite- and onsite-centered ones (IC and OC, respectively), with even and odd numbers NN of actually excited sites in the discrete direction, are identified. We consider the modes carrying the embedded vorticity S=1S=1 and 22. In accordance with their symmetry, the vortex solitons of the OC type exhibit an intrinsic core, while the IC solitons with a small NN may have a coreless structure. Facilitating their creation in the experiment, the modes reported in the present work may be much more compact states than their counterparts considered in other systems, and they feature strong anisotropy. They can be set in motion in the discrete direction, provided that the coupling constant exceeds a certain minimum value. Collisions between moving vortex solitons are considered too.

Keywords

Cite

@article{arxiv.2010.14130,
  title  = {Semidiscrete vortex solitons},
  author = {Xiaoxi Xu and Guanghao Ou and Zhaopin Chen and Bin Liu and Weicheng Chen and Boris A. Malomed and Yongyao Li},
  journal= {arXiv preprint arXiv:2010.14130},
  year   = {2021}
}

Comments

14 pages, 12 figures, 74 References,Published on Advanced Photonics Research

R2 v1 2026-06-23T19:40:42.489Z