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Bifurcation from a normally degenerate manifold

Bifurcation from a normally degenerate manifold
Bifurcation from a normally degenerate manifold
Local bifurcation theory typically deals with the response of a degenerate but isolated equilibrium state or periodic orbit of a dynamical system to perturbations controlled by one or more independent parameters, and characteristically uses tools from singularity theory. There are many situations, however, in which the equilibrium state or periodic orbit is not isolated but belongs to a manifold S of such states, typically as a result of continuous symmetries in the problem. In this case the bifurcation analysis requires a combination of local and global methods, and is most tractable in the case of normal nondegeneracy, that is, when the degeneracy is only along S itself and the system is nondegenerate in directions normal to S. In this paper we consider the consequences of relaxing normal nondegeneracy, which can generically occur within 1-parameter families of such systems. We pay particular attention to the simplest but important case where dim S=1 and where the normal degeneracy occurs with corank 1. Our main focus is on uniform degeneracy along S, although we also consider aspects of the branching structure for solutions when the degeneracy varies at different places on S. The tools are those of singularity theory adapted to global topology of S, which allow us to explain the bifurcation geometry in a natural way. In particular, we extend and give a clear geometric setting for earlier analytical results of Hale and Taboas.
bifurcation from a manifold, normal degeneracy
0024-6115
137-178
Chillingworth, D.R.J.
39d011b7-db33-4d7d-8dc7-c5a4e0a61231
Sbano, L.
1b01791b-4ad6-4079-9de3-309df88c10aa
Chillingworth, D.R.J.
39d011b7-db33-4d7d-8dc7-c5a4e0a61231
Sbano, L.
1b01791b-4ad6-4079-9de3-309df88c10aa

Chillingworth, D.R.J. and Sbano, L. (2010) Bifurcation from a normally degenerate manifold. Proceedings of the London Mathematical Society, 101 (1), 137-178. (doi:10.1112/plms/pdp055).

Record type: Article

Abstract

Local bifurcation theory typically deals with the response of a degenerate but isolated equilibrium state or periodic orbit of a dynamical system to perturbations controlled by one or more independent parameters, and characteristically uses tools from singularity theory. There are many situations, however, in which the equilibrium state or periodic orbit is not isolated but belongs to a manifold S of such states, typically as a result of continuous symmetries in the problem. In this case the bifurcation analysis requires a combination of local and global methods, and is most tractable in the case of normal nondegeneracy, that is, when the degeneracy is only along S itself and the system is nondegenerate in directions normal to S. In this paper we consider the consequences of relaxing normal nondegeneracy, which can generically occur within 1-parameter families of such systems. We pay particular attention to the simplest but important case where dim S=1 and where the normal degeneracy occurs with corank 1. Our main focus is on uniform degeneracy along S, although we also consider aspects of the branching structure for solutions when the degeneracy varies at different places on S. The tools are those of singularity theory adapted to global topology of S, which allow us to explain the bifurcation geometry in a natural way. In particular, we extend and give a clear geometric setting for earlier analytical results of Hale and Taboas.

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More information

Submitted date: 8 April 2009
e-pub ahead of print date: January 2010
Published date: July 2010
Additional Information: 75.1163
Keywords: bifurcation from a manifold, normal degeneracy

Identifiers

Local EPrints ID: 69440
URI: http://eprints.soton.ac.uk/id/eprint/69440
DOI: doi:10.1112/plms/pdp055
ISSN: 0024-6115
PURE UUID: c19a1f3e-8dab-4f10-b4b7-84f0daecc3bf

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Date deposited: 13 Nov 2009
Last modified: 13 Mar 2024 19:33

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Contributors

Author: D.R.J. Chillingworth
Author: L. Sbano

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