Front interaction induces excitable behavior
Abstract
Spatially extended systems can support local transient excitations in which just a part of the system is excited. The mechanisms reported so far are local excitability and excitation of a localized structure. Here we introduce an alternative mechanism based on the coexistence of two homogeneous stable states and spatial coupling. We show the existence of a threshold for perturbations of the homogeneous state. Sub-threshold perturbations decay exponentially. Super-threshold perturbations induce the emergence of a long-lived structure formed by two back to back fronts that join the two homogeneous states. While in typical excitability the trajectory follows the remnants of a limit cycle, here reinjection is provided by front interaction, such that fronts slowly approach each other until eventually annihilating. This front-mediated mechanism shows that extended systems with no oscillatory regimes can display excitability.
Cite
@article{arxiv.1701.08729,
title = {Front interaction induces excitable behavior},
author = {P. Parra-Rivas and M. A. Matias and P. Colet and L. Gelens and D. Walgraef and D. Gomila},
journal= {arXiv preprint arXiv:1701.08729},
year = {2017}
}
Comments
5 pages, 5 figures