Nonlinear analogue of the May−Wigner instability transition

Yan V. Fyodorov; Boris A. Khoruzhenko

doi:10.1073/pnas.1601136113

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Nonlinear analogue of the May−Wigner instability transition

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Yan V. Fyodorov, Boris A. Khoruzhenko

Original language	English
Pages (from-to)	6827–6832
Journal	PNAS
Volume	113
Issue number	25
Early online date	6 Jun 2016
DOIs	https://doi.org/10.1073/pnas.1601136113
Accepted/In press	9 May 2016
E-pub ahead of print	6 Jun 2016
Published	21 Jun 2016

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May_Wigner_arxiv_version_12_June_2016.pdf, 331 KB, application/pdf
Uploaded date:22 Jun 2016
Version:Accepted author manuscript

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Yan V. Fyodorov (Mathematics)

Abstract

We study a system of N 1 degrees of freedom coupled via a smooth homogeneous Gaussian vector field with both gradient and divergence-free components. In the absence of coupling, the system is exponentially relaxing to an equilibrium with rate µ. We show that, while increasing the ratio of the coupling strength to the relaxation rate, the system experiences an abrupt transition from a topologically trivial phase portrait with a single equilibrium into a topologically non-trivial regime characterised by an exponential number of equilibria, the vast majority of which are expected to be unstable. It is suggested that this picture provides a global view on the nature of the May-Wigner instability transition originally discovered by local linear stability analysis.

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Nonlinear analogue of the May−Wigner instability transition

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