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The genealogy of periodic orbits in a plane rotating galaxy

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Abstract

We study the various families of periodic orbits in a dynamical system representing a plane rotating barred galaxy. One can have a general view of the main resonant types of orbits by considering the axisymmetric background. The introduction of a bar perturbation produces infinite gaps along the central familyx 1 (the family of circular orbits in the axisymmetric case). It produces also higher order bifurcations, unstable regions along the familyx 1, and long period orbits aroundL 4 andL 5. The evolution of the various types of orbits is described, as the Jacobi constanth, and the bar amplitude, increase. Of special importance are the infinities of period doubling pitchfork bifurcations. The genealogy of the long and short period orbits is described in detail. There are infinite gaps along the long period orbits producing an infinity of families. All of them bifurcate from the short period family. The rules followed by these families are described. Also an infinity of higher order bridges join the short and long period families. The analogies with the restricted three body problem are stressed.

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Authors and Affiliations

  1. European Southern Observatory, Garching, FRG

    G. Contopoulos

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  1. G. Contopoulos
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Contopoulos, G. The genealogy of periodic orbits in a plane rotating galaxy. Celestial Mechanics 31, 193–211 (1983). https://doi.org/10.1007/BF01686818

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  • DOI: https://doi.org/10.1007/BF01686818

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