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Complex organizing centers in groups of oscillatory particles

Complex organizing centers in groups of oscillatory particles
Complex organizing centers in groups of oscillatory particles
We investigate the origin and evolution of spatiotemporal complexity in a system of locally coupled Belousov–Zhabotinsky chemical oscillators. Using a combination of high resolution microscopy and fine grain numerical modeling, we demonstrate that the behavior arises from an initial phase heterogeneity of the oscillators. This heterogeneity produces wave breaks in the system with the free ends becoming pinned to holes in the medium. The fastest of these pinned tips behave as reentrant circuits that phase set the rest of the medium. The slower tips are repeatedly destroyed and then re-created by the central circuit. The resulting spatiotemporal pattern repeats with the frequency of the reentrant circuit, with its spatial structure depending on the location of the initial wave breaks.
1463-9076
17802-17808
Tinsley, M.R.
0bbc1612-2012-4a7a-af61-e6a91112649f
Taylor, A.F.
08028a29-428d-4732-b6b1-f7a93389b386
Huang, Z.
9af36e84-7551-4ee9-b021-557f2d5019bd
Showalter, K.
165a29d9-4760-41ac-a782-49bf44af44a4
Tinsley, M.R.
0bbc1612-2012-4a7a-af61-e6a91112649f
Taylor, A.F.
08028a29-428d-4732-b6b1-f7a93389b386
Huang, Z.
9af36e84-7551-4ee9-b021-557f2d5019bd
Showalter, K.
165a29d9-4760-41ac-a782-49bf44af44a4

Tinsley, M.R., Taylor, A.F., Huang, Z. and Showalter, K. (2011) Complex organizing centers in groups of oscillatory particles. Physical Chemistry Chemical Physics, 13 (39), 17802-17808. (doi:10.1039/c1cp22109d).

Record type: Article

Abstract

We investigate the origin and evolution of spatiotemporal complexity in a system of locally coupled Belousov–Zhabotinsky chemical oscillators. Using a combination of high resolution microscopy and fine grain numerical modeling, we demonstrate that the behavior arises from an initial phase heterogeneity of the oscillators. This heterogeneity produces wave breaks in the system with the free ends becoming pinned to holes in the medium. The fastest of these pinned tips behave as reentrant circuits that phase set the rest of the medium. The slower tips are repeatedly destroyed and then re-created by the central circuit. The resulting spatiotemporal pattern repeats with the frequency of the reentrant circuit, with its spatial structure depending on the location of the initial wave breaks.

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More information

Accepted/In Press date: 17 August 2011
Published date: 13 September 2011
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Identifiers

Local EPrints ID: 499508
URI: http://eprints.soton.ac.uk/id/eprint/499508
DOI: doi:10.1039/c1cp22109d
ISSN: 1463-9076
PURE UUID: 56135453-3cf3-4a8d-96b7-5ba147f15aa2
ORCID for A.F. Taylor: ORCID iD orcid.org/0000-0003-0071-8306

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Date deposited: 21 Mar 2025 18:06
Last modified: 22 Mar 2025 03:17

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Contributors

Author: M.R. Tinsley
Author: A.F. Taylor ORCID iD
Author: Z. Huang
Author: K. Showalter

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