Mathematics – Dynamical Systems
Scientific paper
2005-02-07
Mathematics
Dynamical Systems
19 pages
Scientific paper
Poincare's classification of the dynamics of homeomorphisms of the circle is one of the earliest, but still one of the most elegant, classification results in dynamical systems. Here we generalize this to quasiperiodically forced circle homeomorphisms, which have been the subject of considerable interest in recent years. Herman already showed two decades ago that a unique rotation number exists for all orbits in the quasiperiodically forced case. However, unlike the unforced case, no a priori bounds exist for the deviations from the average rotation. This plays an important role in the attempted classification, and in fact we define a system as regular if such deviations are bounded and irregular otherwise. For the regular case we prove a close analogue of Poincare's result: if the rotation number is rationally related to the rotation rate on the base then there exists an invariant strip (an appropriate analogue for fixed or periodic points in this context), otherwise the system is semi-conjugate to an irrational translation of the torus. In the irregular case, where neither of these two alternatives can occur, we show that the dynamics are always topologically transitive.
Jaeger Tobias H.
Stark Jaroslav
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