Limit and end functors of dynamical systems via exterior spaces

  1. Calcines, J.M.G. 1
  2. Paricio, L.J.H. 2
  3. Rodríguez, M.T.R. 2
  1. 1 Universidad de La Laguna
    info

    Universidad de La Laguna

    San Cristobal de La Laguna, España

    ROR https://ror.org/01r9z8p25

  2. 2 Universidad de La Rioja
    info

    Universidad de La Rioja

    Logroño, España

    ROR https://ror.org/0553yr311

Revista:
Bulletin of the Belgian Mathematical Society - Simon Stevin

ISSN: 1370-1444

Ano de publicación: 2013

Volume: 20

Número: 5

Páxinas: 937-959

Tipo: Artigo

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DOI: 10.36045/BBMS/1385390773 SCOPUS: 2-s2.0-84896357930 WoS: WOS:000329600600012 GOOGLE SCHOLAR

Outras publicacións en: Bulletin of the Belgian Mathematical Society - Simon Stevin

Repositorio institucional: lock_openAcceso aberto Editor

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Resumo

In this paper we analyze some applications of the category of exterior spaces to the study of dynamical systems (flows). We study the notion of an absorbing open subset of a dynamical system; i.e., an open subset that contains the "future part" of all the trajectories. The family of all absorbing open subsets is a quasi-filter which gives the structure of an exterior space to the flow. The limit space and end space of an exterior space are used to construct the limit spaces and end spaces of a dynamical system. On the one hand, for a dynamical system two limits spaces L-r(X) and (L) over bar (r)(X) are constructed and their relations with the subflows of periodic, Poisson stable points and Omega-limits of X are analyzed. On the other hand, different end spaces are also associated to a dynamical system having the property that any positive semi-trajectory has an end point in these end spaces. This type of construction permits us to consider the subflow containing all trajectories finishing at an end point a. When a runs over the set of all end points, we have an induced decomposition of a dynamical system as a disjoint union of stable (at infinity) subflows.