Controlling spatiotemporal chaos in oscillatory reaction-diffusion
  systems by time-delay autosynchronization

A.S. Mikhailov; Aranson; Baba; Battogtokh; Battogtokh; Beck; Ben-Jacob; Bertram; Bertram; Beta; Bär; C. Beta; Carroll; Coullet; Cross; Ditto; Franceschini; Harrington; Imbihl; Jakubith; Just; Kim; Krischer; Kuramoto; Mikhailov; Ott; Parmananda; Petrov; Pierre; Pyragas; Schuster; Schöll; Socolar; Winfree; Yeung; Zaikin

research

Controlling spatiotemporal chaos in oscillatory reaction-diffusion systems by time-delay autosynchronization

Authors: A.S. Mikhailov
Aranson
Baba
Battogtokh
Battogtokh
Beck
Ben-Jacob
Bertram
Bertram
Beta
Bär
C. Beta
Carroll
Coullet
Cross
Ditto
Franceschini
Harrington
Imbihl
Jakubith
Just
Kim
Krischer
Kuramoto
Mikhailov
Ott
Parmananda
Petrov
Pierre
Pyragas
Schuster
Schöll
Socolar
Winfree
Yeung
Zaikin
Publication date: 1 January 2004
Publisher: 'Elsevier BV'
Doi

Abstract

Diffusion-induced turbulence in spatially extended oscillatory media near a supercritical Hopf bifurcation can be controlled by applying global time-delay autosynchronization. We consider the complex Ginzburg-Landau equation in the Benjamin-Feir unstable regime and analytically investigate the stability of uniform oscillations depending on the feedback parameters. We show that a noninvasive stabilization of uniform oscillations is not possible in this type of systems. The synchronization diagram in the plane spanned by the feedback parameters is derived. Numerical simulations confirm the analytical results and give additional information on the spatiotemporal dynamics of the system close to complete synchronization.Comment: 19 pages, 10 figures submitted to Physica