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Persistence of homoclinic orbits for billiards and twist maps. (English) Zbl 1055.37061

Summary: We consider the billiard motion inside a \(C^2\)-small perturbation of an \(n\)-dimensional ellipsoid \(Q\) with a unique major axis. The diameter of the ellipsoid \(Q\) is a hyperbolic two-periodic trajectory whose stable and unstable invariant manifolds are doubled, so that there is an \(n\)-dimensional invariant set \(W\) of homoclinic orbits for the unperturbed billiard map. The set \(W\) is a stratified set with a complicated structure.
For the perturbed billiard map, the set \(W\) generically breaks down into isolated homoclinic orbits. We provide lower bounds for the number primary homoclinic orbits of the perturbed billiard which are close to unperturbed homoclinic orbits in certain strata of \(W\).
The lower bound for the number of persisting primary homoclinic billiard orbits is deduced from a more general lower bound for exact perturbations of twist maps possessing a manifold of homoclinic orbits.

MSC:

37J40 Perturbations of finite-dimensional Hamiltonian systems, normal forms, small divisors, KAM theory, Arnol’d diffusion
37J10 Symplectic mappings, fixed points (dynamical systems) (MSC2010)
37J45 Periodic, homoclinic and heteroclinic orbits; variational methods, degree-theoretic methods (MSC2010)
70H09 Perturbation theories for problems in Hamiltonian and Lagrangian mechanics
37E40 Dynamical aspects of twist maps
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