On stability zones for discrete-time periodic linear Hamiltonian systems.

Răsvan, Vladimir

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Stability zones for discrete time Hamiltonian systems

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Partial differential equations endowed with a Hamiltonian structure, like the Korteweg–de Vries equation and many other more or less classical models, are known to admit rich families of periodic travelling waves. The stability theory for these waves is still in its infancy though. The issue has been tackled by various means. Of course, it is always possible to address stability from the spectral point of view. However, the link with nonlinear stability - in fact, stability, since...

Nekhoroshev stability for the D’Alembert problem of Celestial Mechanics

Luca Biasco, Luigi Chierchia (2002)

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The classical D’Alembert Hamiltonian model for a rotational oblate planet revolving near a «day-year» resonance around a fixed star on a Keplerian ellipse is considered. Notwithstanding the strong degeneracies of the model, stability results a là Nekhoroshev (i.e. for times which are exponentially long in the perturbative parameters) for the angular momentum of the planet hold.

Hofer's L...-geometry: energy and stability of Hamiltonian flows, part II.

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Hofer's L...-geometry: energy and stability of Hamiltonian flows, part II (Erratum).

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Hofer's L...-geometry: energy and stability of Hamiltonian flows, part I.

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Stability and instability for Gevrey quasi-convex near-integrable hamiltonian systems

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