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On phase at a resonance in slow-fast Hamiltonian systems
We consider a slow-fast Hamiltonian system with one fast angular variable (a fast phase) whose frequency vanishes on some surface in the space of slow variables (a resonant surface). Systems of such form appear in the study of dynamics of charged particles in inhomogeneous magnetic field under influence of a high-frequency electrostatic waves. Trajectories of the averaged over the fast phase system cross the resonant surface. The fast phase makes ∼ 1/ε turns before arrival to the resonant surface (ε is a small parameter of the problem). An asymptotic formula for the value of the phase at the arrival to the resonance was derived earlier in the context of study of charged particle dynamics on the basis of heuristic considerations without any estimates of its accuracy. We provide a rigorous derivation of this formula and prove that its accuracy is O(√ε) (up to a logarithmic correction). This estimate for the accuracy is optimal.
Funding
Leverhulme Trust (Grant No. RPG-2018-143)
History
School
- Science
Department
- Mathematical Sciences
Published in
Regular and Chaotic DynamicsVolume
28Issue
4Pages
585 - 612Publisher
SpringerVersion
- AM (Accepted Manuscript)
Rights holder
© Pleiades Publishing, LtdPublisher statement
This version of the article has been accepted for publication, after peer review (when applicable) and is subject to Springer Nature’s AM terms of use, but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at: https://doi.org/10.1134/S1560354723040068Acceptance date
2023-06-19Publication date
2023-10-20Copyright date
2023ISSN
1560-3547eISSN
1468-4845Publisher version
Language
- en