Dead zones and phase reduction of coupled oscillators
journal contribution
posted on 2025-08-01, 13:00 authored by P Ashwin, C Bick, C PoignardA dead zone in the interaction between two dynamical systems is a region of their joint phase space where one system is insensitive to the changes in the other. These can arise in a number of contexts, and their presence in phase interaction functions has interesting dynamical consequences for the emergent dynamics. In this paper, we consider dead zones in the interaction of general coupled dynamical systems. For weakly coupled limit cycle oscillators, we investigate criteria that give rise to dead zones in the phase interaction functions. We give applications to coupled multiscale oscillators where coupling on only one branch of a relaxation oscillation can lead to the appearance of dead zones in a phase description of their interaction.
Funding
EP/N014391/1
EP/T013613/1
Engineering and Physical Sciences Research Council (EPSRC)
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© 2021 Author(s). Published under an exclusive license by AIP Publishing.Notes
This is the author accepted manuscript. The final version is available from the American Institute of Physics via the DOI in this record The MATLAB code that generates the data in support the findings of this study is openly available in https://github.com in the repository /peterashwin/dead-zone-reduction-2021.External DOI
Journal
ChaosPublisher
American Institute of PhysicsVersion
- Accepted Manuscript
Language
enFCD date
2021-09-03T08:00:29ZFOA date
2021-10-29T14:43:07ZCitation
Vol. 31,(9), article 093132Department
- Mathematics and Statistics
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