In studying general perturbations of a dissipative twist map depending on two parameters, a frequency v and a dissipation eta, the existence of a Cantor set C of curves in the (v,eta) plane such that the corresponding equation possesses a Diophantine quasi-periodic invariant circle can be deduced, up to small values of the dissipation, as a direct consequence of a normal form theorem in the spirit of Russmann and the "elimination of parameters" technique. These circles are normally hyperbolic as soon as. eta not equal 0, which implies that the equation still possesses a circle of this kind for values of the parameters belonging to a neighborhood V of this set of curves. Obviously, the dynamics on such invariant circles is no more controlled and may be generic, but the normal dynamics is controlled in the sense of their basins of attraction. As expected, by the classical graph-transform method we are able to determine a first rough region where the normal hyperbolicity prevails and a circle persists, for a strong enough dissipation. eta similar to O(root epsilon), epsilon being the size of the perturbation. Then, through normal-form techniques, we shall enlarge such regions and determine such a (conic) neighborhood V, up to values of dissipation of the same order as the perturbation, by using the fact that the proximity of the set C allows, thanks to Russmann's translated curve theorem, an introduction of local coordinates of the type (dissipation, translation) similar to the ones introduced by Chenciner in [7].

Massetti, J.e. (2023). Attractive Invariant Circles à la Chenciner. REGULAR & CHAOTIC DYNAMICS, 28(4-5), 447-467 [10.1134/s1560354723520052].

Attractive Invariant Circles à la Chenciner

Massetti, Jessica Elisa
2023-01-01

Abstract

In studying general perturbations of a dissipative twist map depending on two parameters, a frequency v and a dissipation eta, the existence of a Cantor set C of curves in the (v,eta) plane such that the corresponding equation possesses a Diophantine quasi-periodic invariant circle can be deduced, up to small values of the dissipation, as a direct consequence of a normal form theorem in the spirit of Russmann and the "elimination of parameters" technique. These circles are normally hyperbolic as soon as. eta not equal 0, which implies that the equation still possesses a circle of this kind for values of the parameters belonging to a neighborhood V of this set of curves. Obviously, the dynamics on such invariant circles is no more controlled and may be generic, but the normal dynamics is controlled in the sense of their basins of attraction. As expected, by the classical graph-transform method we are able to determine a first rough region where the normal hyperbolicity prevails and a circle persists, for a strong enough dissipation. eta similar to O(root epsilon), epsilon being the size of the perturbation. Then, through normal-form techniques, we shall enlarge such regions and determine such a (conic) neighborhood V, up to values of dissipation of the same order as the perturbation, by using the fact that the proximity of the set C allows, thanks to Russmann's translated curve theorem, an introduction of local coordinates of the type (dissipation, translation) similar to the ones introduced by Chenciner in [7].
2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore MAT/05
English
Con Impact Factor ISI
nonconservative twist maps
invariant circles
elimination of parameters
normal forms
Massetti, J.e. (2023). Attractive Invariant Circles à la Chenciner. REGULAR & CHAOTIC DYNAMICS, 28(4-5), 447-467 [10.1134/s1560354723520052].
Massetti, Je
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/360785
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