Add to ORKGThese lectures are devoted to the main results of classical perturbation theory. We start by recalling the methods of Hamiltonian dynamics, the problem of small divisors, the series of Lindstedt and the method of normal form. Then we discuss the theorem of Kolmogorov with an application to the Sun--Jupiter--Saturn problem in Celestial Mechanics. Finally we discuss the problem of long--time stability, by discussing the concept of exponential stability as introduced by Moser and Littlewood and fully exploited by Nekhoroshev. The phenomenon of superexponential stability is also recalled
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
Canonical Perturbation Theories, Degenerate Systems and Resonance presents the foundations of Hamilt...
At the beginning of the second volume of his Méthodes nouvelles de la Mécanique Céleste Poincare ...
The present notes contain the full text of a series of lectures that I presented at the Centro di Ri...
The stability of nearly–integrable systems can be studied over different time scales and with differ...
We investigate the long time stability in Nekhoroshev’s sense for the Sun–Jupiter– Saturn problem i...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
Many problems of stability in the theory of dynamical systems face the difficulty of small divisors....
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
These lectures are devoted to the main results of classical perturbation theory. We start by recal...
Canonical Perturbation Theories, Degenerate Systems and Resonance presents the foundations of Hamilt...
At the beginning of the second volume of his Méthodes nouvelles de la Mécanique Céleste Poincare ...
The present notes contain the full text of a series of lectures that I presented at the Centro di Ri...
The stability of nearly–integrable systems can be studied over different time scales and with differ...
We investigate the long time stability in Nekhoroshev’s sense for the Sun–Jupiter– Saturn problem i...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
Many problems of stability in the theory of dynamical systems face the difficulty of small divisors....
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...
We investigate the long time stability in Nekhoroshev’s sense for the Sun– Jupiter–Saturn problem i...
We investigate the long-time stability of the Sun-Jupiter-Saturn-Uranus system by considering a plan...