Topological Entropy and Secondary Folding
Copyright policy )Topological Entropy and Secondary Folding
A convenient measure of a map or flow's chaotic action is the topological entropy. In many cases, the entropy has a homological origin: it is forced by the topology of the space. For example, in simple toral maps, the topological entropy is exactly equal to the growth induced by the map on the fundamental group of the torus. However, in many situations the numerically-computed topological entropy is greater than the bound implied by this action. We associate this gap between the bound and the true entropy with 'secondary folding': material lines undergo folding which is not homologically forced. We examine this phenomenon both for physical rod-stirring devices and toral linked twist maps, and show rigorously that for the latter secondary folds occur.
13 pages, 8 figures. pdfLaTeX with RevTeX4 macros
- University of Wisconsin–Madison United States
- UNIVERSITY OF WISCONSIN-MADISON United States
- University of Wisconsin–Stevens Point United States
- University of Wisconsin–Oshkosh United States
Topological entropy, FOS: Physical sciences, Dynamical Systems (math.DS), dynamical systems, Nonlinear Sciences - Chaotic Dynamics, Stokes and related (Oseen, etc.) flows, Dynamical aspects of twist maps, linked twist maps, topological entropy, FOS: Mathematics, Mathematics - Dynamical Systems, Chaotic Dynamics (nlin.CD)
Topological entropy, FOS: Physical sciences, Dynamical Systems (math.DS), dynamical systems, Nonlinear Sciences - Chaotic Dynamics, Stokes and related (Oseen, etc.) flows, Dynamical aspects of twist maps, linked twist maps, topological entropy, FOS: Mathematics, Mathematics - Dynamical Systems, Chaotic Dynamics (nlin.CD)
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