Diffusion and drift in volume-preserving maps


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Аннотация

A nearly-integrable dynamical system has a natural formulation in terms of actions, y (nearly constant), and angles, x (nearly rigidly rotating with frequency Ω(y)).We study angleaction maps that are close to symplectic and have a twist, the derivative of the frequency map, DΩ(y), that is positive-definite. When the map is symplectic, Nekhoroshev’s theorem implies that the actions are confined for exponentially long times: the drift is exponentially small and numerically appears to be diffusive. We show that when the symplectic condition is relaxed, but the map is still volume-preserving, the actions can have a strong drift along resonance channels. Averaging theory is used to compute the drift for the case of rank-r resonances. A comparison with computations for a generalized Froeschl´e map in four-dimensions shows that this theory gives accurate results for the rank-one case.

Авторлар туралы

Nathan Guillery

Department of Applied Mathematics

Хат алмасуға жауапты Автор.
Email: Nathan.Guillery@Colorado.EDU
АҚШ, Boulder, CO, 80309-0526

James Meiss

Department of Applied Mathematics

Email: Nathan.Guillery@Colorado.EDU
АҚШ, Boulder, CO, 80309-0526

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© Pleiades Publishing, Ltd., 2017