Bifurcations of relative equilibria near zero momentum in Hamiltonian systems with spherical symmetry

James Montaldi

doi:10.3934/jgm.2014.6.237

Bifurcations of relative equilibria near zero momentum in Hamiltonian systems with spherical symmetry

James Montaldi

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Abstract

For Hamiltonian systems with spherical symmetry there is a marked difference between zero and non-zero momentum values, and amongst all relative equilibria with zero momentum there is a marked difference between those of zero and those of non-zero angular velocity. We use techniques from singularity theory to study the family of relative equilibria that arise as a symmetric Hamiltonian which has a group orbit of equilibria with zero momentum is perturbed so that the zero-momentum relative equilibrium are no longer equilibria. We also analyze the stability of these perturbed relative equilibria, and consider an application to satellites controlled by means of rotors.

Original language	English
Pages (from-to)	237-260
Number of pages	23
Journal	Journal of Geometric Mechanics
Volume	6
Issue number	2
DOIs	https://doi.org/10.3934/jgm.2014.6.237
Publication status	Published - Jun 2014

Keywords

Momentum map, symplectic reduction, bifurcations, SO(3) symmetry, relative equilibria, singularity theory

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10.3934/jgm.2014.6.237

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abstract = "For Hamiltonian systems with spherical symmetry there is a marked difference between zero and non-zero momentum values, and amongst all relative equilibria with zero momentum there is a marked difference between those of zero and those of non-zero angular velocity. We use techniques from singularity theory to study the family of relative equilibria that arise as a symmetric Hamiltonian which has a group orbit of equilibria with zero momentum is perturbed so that the zero-momentum relative equilibrium are no longer equilibria. We also analyze the stability of these perturbed relative equilibria, and consider an application to satellites controlled by means of rotors.",

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AB - For Hamiltonian systems with spherical symmetry there is a marked difference between zero and non-zero momentum values, and amongst all relative equilibria with zero momentum there is a marked difference between those of zero and those of non-zero angular velocity. We use techniques from singularity theory to study the family of relative equilibria that arise as a symmetric Hamiltonian which has a group orbit of equilibria with zero momentum is perturbed so that the zero-momentum relative equilibrium are no longer equilibria. We also analyze the stability of these perturbed relative equilibria, and consider an application to satellites controlled by means of rotors.

KW - Momentum map, symplectic reduction, bifurcations, SO(3) symmetry, relative equilibria, singularity theory

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Bifurcations of relative equilibria near zero momentum in Hamiltonian systems with spherical symmetry

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