Mode-locking in systems of globally coupled phase oscillators
Authors
- Eydam, Sebastian
- Wolfrum, Matthias
ORCID: 0000-0002-4278-2675
2010 Mathematics Subject Classification
- 34C15 37N20
2010 Physics and Astronomy Classification Scheme
- 89.75.-k 42.60.Fc 05.45Xt 05.45.-a
Keywords
- Phase oscillators, mode-locking
DOI
Abstract
We investigate the dynamics of a Kuramoto-type system of globally coupled phase oscillators with equidistant natural frequencies and a coupling strength below the synchronization threshold. It turns out that in such cases one can observe a stable regime of sharp pulses in the mean field amplitude with a pulsation frequency given by spacing of the natural frequencies. This resembles a process known as mode-locking in laser and relies on the emergence of a phase relation induced by the nonlinear coupling. We discuss the role of the first and second harmonic in the phase-interaction function for the stability of the pulsations and present various bifurcating dynamical regimes such as periodically and chaotically modulated mode-locking, transitions to phase turbulence and intermittency. Moreover, we study the role of the system size and show that in certain cases one can observe type-II supertransients, where the system reaches the globally stable mode-locking solution only after an exponentially long transient of phase turbulence.
Appeared in
- Phys. Rev. E, 96 (2017), pp. 052205/1--052205/8, DOI 10.1103/PhysRevE.96.052205 .
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