English

Approximating multi-dimensional Hamiltonian flows by billiards

Chaotic Dynamics 2018-04-10 v1

Abstract

Consider a family of smooth potentials VϵV_{\epsilon}, which, in the limit ϵ0\epsilon\to0, become a singular hard-wall potential of a multi-dimensional billiard. We define auxiliary billiard domains that asymptote, as ϵ0\epsilon\to0 to the original billiard, and provide asymptotic expansion of the smooth Hamiltonian solution in terms of these billiard approximations. The asymptotic expansion includes error estimates in the CrC^{r} norm and an iteration scheme for improving this approximation. Applying this theory to smooth potentials which limit to the multi-dimensional close to ellipsoidal billiards, we predict when the separatrix splitting persists for various types of potentials.

Keywords

Cite

@article{arxiv.nlin/0511071,
  title  = {Approximating multi-dimensional Hamiltonian flows by billiards},
  author = {A. Rapoport and V. Rom-Kedar and D. Turaev},
  journal= {arXiv preprint arXiv:nlin/0511071},
  year   = {2018}
}