
INHALT & PFAD:
Entropy and dynamical systems in dimension 2
Datum: 14.11.2017
Uhrzeit: 16:00 Uhr
[(im neu verlängerten Flur an Raum 6240 vorbei)]
Ort: MZH 6210
Vortragende(r): Prof. Fabio Tal
(University of Sao Paulo)
One of the most useful tools in quantifying the complexity of a dynamical system (DS) are the concepts of topological and metric entropy. While relevant in several contexts, entropy plays a particularly important role in describing the behaviour of dynamical systems in dimension 2. For instance, a famous result by Katok shows that, for sufficiently smooth systems, the presence of strictly positive topological entropy implies that there exists a very good model for the dynamics. It is shown that, in particular, if the topological entropy is at least ln(2), then the complexity observed is at least as large as that of the classical Bernoulli system (that is, it is at least as difficult as the process of flipping a honest coin infinitely many times).
On the other hand, one can consider if there exists any sort of description of the dynamics when the entropy is null. In recent works with P. Le Calvez we have shown that, at least for planar homeomorphisms, a lot of information can be derived, and showing that in many ways the phase portrait is similar to that of a flow, and conservative systems in particular behave similarly to integrable systems.
Ansprechpartner(in) / Einladende(r):
Prof. Dr. Marc
Keßeböhmer

