Loewner differential equation: Difference between revisions

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In [[mathematics]], a [[topological space]] ''X'' is said to be '''H-closed''', or '''Hausdorff closed''', or '''absolutely closed''' if it is  closed in every [[Hausdorff space]] space containing it as a subspace. This property  is a generalization of [[compact spaces|compactness]], since a compact subset of a Hausdorff space is closed. Thus, every compact Hausdorff space is H-closed. The notion of an H-closed space has been introduced in 1924 by [[Pavel Alexandrov|P. Alexandroff]] and [[Pavel Samuilovich Urysohn|P. Urysohn]].
 
==Examples and equivalent formulations==
 
* The unit interval <math>[0,1]</math>, endowed with the smallest topology which refines the euclidean topology, and contains <math>Q \cap [0,1]</math> as an open set is H-closed but not compact.
 
* Every [[regular space|regular]] Hausdorff H-closed space is compact.
 
* A Hausdorff space is H-closed if and only if every open cover has a finite subfamily with dense union.
 
==See also==
 
*[[Compact space]]
 
==References==
 
* K.P. Hart, Jun-iti Nagata, J.E. Vaughan (editors), ''Encyclopedia of General Topology'', Chapter d20 (by Jack Porter and Johannes Vermeer)
 
 
[[Category:Properties of topological spaces]]
[[Category:Compactness (mathematics)]]

Revision as of 09:25, 26 January 2014

In mathematics, a topological space X is said to be H-closed, or Hausdorff closed, or absolutely closed if it is closed in every Hausdorff space space containing it as a subspace. This property is a generalization of compactness, since a compact subset of a Hausdorff space is closed. Thus, every compact Hausdorff space is H-closed. The notion of an H-closed space has been introduced in 1924 by P. Alexandroff and P. Urysohn.

Examples and equivalent formulations

  • The unit interval [0,1], endowed with the smallest topology which refines the euclidean topology, and contains Q[0,1] as an open set is H-closed but not compact.
  • Every regular Hausdorff H-closed space is compact.
  • A Hausdorff space is H-closed if and only if every open cover has a finite subfamily with dense union.

See also

References

  • K.P. Hart, Jun-iti Nagata, J.E. Vaughan (editors), Encyclopedia of General Topology, Chapter d20 (by Jack Porter and Johannes Vermeer)
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