Third-order chromatic dispersion stabilizes Kerr frequency combs
Optics
2015-06-19 v1
Abstract
Using numerical simulations of an extended Lugiato-Lefever equation, we analyze the stability and nonlinear dynamics of Kerr frequency combs generated in microresonators and fiber resonators taking into account third-order dispersion effects. We show that cavity solitons underlying Kerr frequency combs, normally sensitive to oscillatory and chaotic instabilities, are stabilized in a wide range of parameter space by third-order dispersion. Moreover, we demonstrate how the snaking structure organizing compound states of multiple cavity solitons is qualitatively changed by third-order dispersion, promoting an increased stability of Kerr combs underlined by a single cavity soliton.
Keywords
Cite
@article{arxiv.1403.0903,
title = {Third-order chromatic dispersion stabilizes Kerr frequency combs},
author = {Pedro Parra-Rivas and Damia Gomila and Francois Leo and Stephane Coen and Lendert Gelens},
journal= {arXiv preprint arXiv:1403.0903},
year = {2015}
}
Comments
4 pages and 4 figures