A topological classification of plane polynomial systems having a globally attracting singular point

• Main Authors: José Espín Buendía, Víctor Jiménez López
• Format: Article
• Language: English
• Published: University of Szeged 2018-05-01
• Series: Electronic Journal of Qualitative Theory of Differential Equations
• Subjects: global unstable attraction; plane polynomial systems; topological equivalence
• Online Access: http://www.math.u-szeged.hu/ejqtde/periodica.html?periodica=1&paramtipus_ertek=publication&param_ertek=6149
• ISSN: 1417-3875; 1417-3875

In this paper, plane polynomial systems having a singular point attracting all orbits in positive time are classified up to topological equivalence. This is done by assigning a combinatorial invariant to the system (a so-called "feasible set" consisting of finitely many vectors with components in the set $\{n/3: n=0,1,2,\ldots\}$), so that two such systems are equivalent if and only if (after appropriately fixing an orientation in $\mathbb{R}^2$ and a heteroclinic separatrix) they have the same feasible set. In fact, this classification is achieved in the more general setting of continuous flows having finitely many separatrices. Polynomial representatives for each equivalence class are found, although in a non-constructive way. Since, to the best of our knowledge, the literature does not provide any concrete polynomial system having a non-trivial globally attracting singular point, an explicit example is given as well.