Published December 1, 1982
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Journal Article
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Instability and confined chaos in a nonlinear dispersive wave system
Abstract
Calculations of a discrete nonlinear dispersive wave system show that as the degree of nonlinearity increases, the system experiences in turn, periodic, recurring, chaotic, transitional, and periodic motions. A relationship between the instability of the initial configuration and the long-time behavior is identified. The calculations further suggest that the corresponding continuous system will exhibit chaotic motions and energy-sharing among a narrow band of unstable modes, a phenomenon which we call "confined chaos."
Additional Information
Copyright © 1982 American Institute of Physics. Received 25 February 1981; accepted 20 July 1982.Files
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