Topological characterizations of Morse-Smale flows on surfaces and generic non-Morse-Smale flows

It is known that \(C^r\) Morse-Smale vector fields form an open dense subset in the space of vector fields on orientable closed surfaces and are structurally stable for any \(r \in \mathbb{Z}_{>0}\). In particular, \(C^r\) Morse vector fields (i.e. Morse-Smale vector fields without limit cycles)...

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Veröffentlicht in:arXiv.org 2021-09
Hauptverfasser: Kibkalo, Vladislav, Yokoyama, Tomoo
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Sprache:eng
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Zusammenfassung:It is known that \(C^r\) Morse-Smale vector fields form an open dense subset in the space of vector fields on orientable closed surfaces and are structurally stable for any \(r \in \mathbb{Z}_{>0}\). In particular, \(C^r\) Morse vector fields (i.e. Morse-Smale vector fields without limit cycles) form an open dense subset in the space of \(C^r\) gradient vector fields on orientable closed surfaces and are structurally stable. Therefore generic time evaluations of gradient flows on orientable closed surfaces (e.g. solutions of differential equations) are described by alternating sequences of Morse flows and instantaneous non-Morse gradient flows. To illustrate the generic transitions, we characterize and list all generic non-Morse gradient flows. To construct such characterizations, we characterize isolated singular points of gradient flows on surfaces. In fact, such a singular point is a non-trivial finitely sectored singular point without elliptic sectors. Moreover, considering Morse-Smale flows as "generic gradient flows with limit cycles", we characterize and list all generic non-Morse-Smale flows.
ISSN:2331-8422