| Type de publication : |
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Preprint, Working Paper, Document sans référence, etc. |
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| Domaine : |
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Mathématiques/Systèmes dynamiques
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| Titre : |
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The flow of the equal-mass spatial 3-body problem in the neighborhood of the equilateral relative equilibrium |
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| Auteur(s) : |
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Alain Chenciner ( ) 1, Jacques Féjoz () 1, 2 |
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| Laboratoire : |
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| Résumé : |
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From a normal form analysis near the Lagrange equilateral relative equilibrium, we deduce that, up to the action of similarities and time shifts, the only relative periodic solutions which bifurcate from this solution are the (planar) homographic family and the (spatial) P12 family with its twelfth-order symmetry. After reduction by the rotation symmetry of the Lagrange solution, our proof of the local existence and uniqueness of P12 follows that of Hill's orbits in the planar circular restricted three-body problem. We then analyse the restriction of the reduced flow to a constant energy level in a center manifold. Such a level turns out to be a three-sphere. In an annulus of section bounded by relative periodic solutions of each family, the normal resonance along the homographic family entails that the Poincare return map is the identity on the corresponding connected component of the boundary. Using the reflexion symmetry with respect to the plane of the relative equilibrium, we prove that, close enough to the Lagrange solution, the return map is a monotone twist map. |
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Langue du texte
intégral : |
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Anglais |
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| Mots Clés : |
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three-body problem – Lagrange relative equilibrium – relative periodic orbits – Lyapunov family – resonant normal form |
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| Classification : |
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MSC 70F07 Three-body problem |
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| Commentaire : |
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22 pages, 2 figures |
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