We study the existence of infinite-dimensional invariant tori in a mechanical system of infinitely many rotators weakly interacting with each other.We consider explicitly interactions depending only on the angles,with the aim of discussing in a simple case the analyticity properties to be required on the perturbation of the integrable systemin order to ensure the persistence of a large measure set of invariant tori with finite energy.The proof we provide of the persistence of the invariant tori implements the renormalisation group scheme based on the tree formalism, i. e., the graphical representation of the solutions of the equations of motion interms of trees, which has been widely used in finite-dimensional problems. The method is very effectual and flexible:it naturally extends, once the functional setting has been fixed, to the infinite-dimensional case with only minor technical-natured adaptations.
Corsi, L., Gentile, G., Procesi, M. (2024). Maximal Tori in Infinite-Dimensional Hamiltonian Systems: a Renormalisation Group Approach. REGULAR & CHAOTIC DYNAMICS [10.1134/S1560354724540025].
Maximal Tori in Infinite-Dimensional Hamiltonian Systems: a Renormalisation Group Approach
Corsi L.;Gentile G.;Procesi M.
2024-01-01
Abstract
We study the existence of infinite-dimensional invariant tori in a mechanical system of infinitely many rotators weakly interacting with each other.We consider explicitly interactions depending only on the angles,with the aim of discussing in a simple case the analyticity properties to be required on the perturbation of the integrable systemin order to ensure the persistence of a large measure set of invariant tori with finite energy.The proof we provide of the persistence of the invariant tori implements the renormalisation group scheme based on the tree formalism, i. e., the graphical representation of the solutions of the equations of motion interms of trees, which has been widely used in finite-dimensional problems. The method is very effectual and flexible:it naturally extends, once the functional setting has been fixed, to the infinite-dimensional case with only minor technical-natured adaptations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.