Sharkovskii theorem for infinite dimensional dynamical systems

Abstract

We present an adaptation of a relatively simple topological argument to show the existence of many periodic orbits in an infinite dimensional dynamical system, provided that the system is close to a one-dimensional map in a certain sense. Namely, we prove a Sharkovskii-type theorem: if the system has a periodic orbit of basic period m, then it must have all periodic orbits of periods n m, for n preceding m in Sharkovskii ordering. The assumptions of the theorem can be verified with computer assistance, and we demonstrate the application of such an argument in the case of Delay Differential Equations (DDEs): we consider the R\"ossler ODE system perturbed by a delayed term and we show that it retains periodic orbits of all natural periods for fixed values of parameters.

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