Asymptotic Invariant Surfaces for Non-Autonomous Pendulum-Type Systems

Invariant surfaces play a crucial role in the dynamics of mechanical systems separating regions filled with chaotic behavior. Cases where such surfaces can be found are rare enough. Perhaps the most famous of these is the so-called Hess case in the mechanics of a heavy rigid body with a fixed point....

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Bibliographic Details
Published in:Regular & chaotic dynamics 2020, Vol.25 (1), p.121-130
Main Authors: Burov, Alexander A., Guerman, Anna D., Nikonov, Vasily I.
Format: Article
Language:English
Subjects:
Chaos theory
Dynamical Systems and Ergodic Theory
Invariants
Mathematics
Mathematics and Statistics
Mechanical systems
Pendulums
Poincare maps
Rigid structures
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Summary:Invariant surfaces play a crucial role in the dynamics of mechanical systems separating regions filled with chaotic behavior. Cases where such surfaces can be found are rare enough. Perhaps the most famous of these is the so-called Hess case in the mechanics of a heavy rigid body with a fixed point. We consider here the motion of a non-autonomous mechanical pendulum-like system with one degree of freedom. The conditions of existence for invariant surfaces of such a system corresponding to non-split separatrices are investigated. In the case where an invariant surface exists, combination of regular and chaotic behavior is studied analytically via the Poincaré-Mel’nikov separatrix splitting method, and numerically using the Poincaré maps.
ISSN:1560-3547
1560-3547
1468-4845
DOI:10.1134/S1560354720010104