In topology, a preclosure operator or Čech closure operator is a map between subsets of a set, similar to a topological closure operator, except that it is not required to be idempotent. That is, a preclosure operator obeys only three of the four Kuratowski closure axioms.
Definition
editA preclosure operator on a set is a map
where is the power set of
The preclosure operator has to satisfy the following properties:
- (Preservation of nullary unions);
- (Extensivity);
- (Preservation of binary unions).
The last axiom implies the following:
- 4. implies .
Topology
editA set is closed (with respect to the preclosure) if . A set is open (with respect to the preclosure) if its complement is closed. The collection of all open sets generated by the preclosure operator is a topology;[1] however, the above topology does not capture the notion of convergence associated to the operator, one should consider a pretopology, instead.[2]
Examples
editPremetrics
editGiven a premetric on , then
is a preclosure on
Sequential spaces
editThe sequential closure operator is a preclosure operator. Given a topology with respect to which the sequential closure operator is defined, the topological space is a sequential space if and only if the topology generated by is equal to that is, if
See also
editReferences
edit- ^ Eduard Čech, Zdeněk Frolík, Miroslav Katětov, Topological spaces Prague: Academia, Publishing House of the Czechoslovak Academy of Sciences, 1966, Theorem 14 A.9 [1].
- ^ S. Dolecki, An Initiation into Convergence Theory, in F. Mynard, E. Pearl (editors), Beyond Topology, AMS, Contemporary Mathematics, 2009.
- A.V. Arkhangelskii, L.S.Pontryagin, General Topology I, (1990) Springer-Verlag, Berlin. ISBN 3-540-18178-4.
- B. Banascheski, Bourbaki's Fixpoint Lemma reconsidered, Comment. Math. Univ. Carolinae 33 (1992), 303–309.