Collective modes of coupled phase oscillators with delayed coupling

Ares, S.; Morelli, L. G.; Jörg, D. J.; Oates, A. C.; Jülicher, F.

doi:10.1103/PhysRevLett.108.204101

Ares, S.; Morelli, L. G.; Jörg, D. J.; Oates, A. C.; Jülicher, F.

2012

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Abstract

We study the effects of delayed coupling on timing and pattern formation in spatially extended systems of dynamic oscillators. Starting from a discrete lattice of coupled oscillators, we derive a generic continuum theory for collective modes of long wavelengths. We use this approach to study spatial phase profiles of cellular oscillators in the segmentation clock, a dynamic patterning system of vertebrate embryos. Collective wave patterns result from the interplay of coupling delays and moving boundary conditions. We show that the phase profiles of collective modes depend on coupling delays. © 2012 American Physical Society.

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Title Collective modes of coupled phase oscillators with delayed coupling

Author(s) Ares, S. ; Morelli, L. G. ; Jörg, D. J. ; Oates, A. C. ; Jülicher, F.

Published in Physical Review Letters

Volume 108

Issue 20

Pages 204101

Date 2012

ISSN 00319007

Keywords

Atomic physics; Collective modes; Continuum mechanics; Continuum theory; Coupled oscillators; Coupled phase oscillators; Coupling delays; Discrete lattices; Long wavelength; Moving boundary conditions; Pattern formation; Phase profile; Physics; Spatially extended systems; Wave patterns

DOI https://doi.org/10.1103/PhysRevLett.108.204101

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Laboratories UPOATES

Record Appears in Scientific production and competences > SV - School of Life Sciences > IBI-SV - Interfaculty Institute of Bioengineering > UPOATES - Prof. Oates Group
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Record creation date 2017-05-30

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