Parra-Rivas, P.; Matias, M.A.; Colet, P.; Gelens, L.; Walgraef, D.; Gomila, D.
Physical Review E 95, 020201(R) (1-4) (2017)
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.
DOI | 10.1103/PhysRevE.95.020201 |
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ArXiv Number | 1701.08729 |
Files | 1701.08729v1.pdf (310916 Bytes) |
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