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In topology, a branch of mathematics, a subset $E$ of a topological space $X$ is said to be locally closed if any of the following equivalent conditions are satisfied:

$E$ is the intersection of an open set and a closed set in $X.$
For each point $x\in E,$ there is a neighborhood $U$ of $x$ such that $E\cap U$ is closed in $U.$
$E$ is open in its closure ${\overline {E}}.$
The set ${\overline {E}}\setminus E$ is closed in $X.$
$E$ is the difference of two closed sets in $X.$
$E$ is the difference of two open sets in $X.$

The second condition justifies the terminology locally closed and is Bourbaki's definition of locally closed. To see the second condition implies the third, use the facts that for subsets $A\subseteq B,$ $A$ is closed in $B$ if and only if $A={\overline {A}}\cap B$ and that for a subset $E$ and an open subset $U,$ ${\overline {E}}\cap U={\overline {E\cap U}}\cap U.$

Examples

The interval $(0,1]=(0,2)\cap$ is a locally closed subset of $\mathbb {R} .$ For another example, consider the relative interior $D$ of a closed disk in $\mathbb {R} ^{3}.$ It is locally closed since it is an intersection of the closed disk and an open ball.

On the other hand, $\{(x,y)\in \mathbb {R} ^{2}\mid x\neq 0\}\cup \{(0,0)\}$ is not a locally closed subset of $\mathbb {R} ^{2}$ .

Recall that, by definition, a submanifold $E$ of an $n$ -manifold $M$ is a subset such that for each point $x$ in $E,$ there is a chart $\varphi :U\to \mathbb {R} ^{n}$ around it such that $\varphi (E\cap U)=\mathbb {R} ^{k}\cap \varphi (U).$ Hence, a submanifold is locally closed.

Here is an example in algebraic geometry. Let U be an open affine chart on a projective variety X (in the Zariski topology). Then each closed subvariety Y of U is locally closed in X; namely, $Y=U\cap {\overline {Y}}$ where ${\overline {Y}}$ denotes the closure of Y in X. (See also quasi-projective variety and quasi-affine variety.)

Properties

Finite intersections and the pre-image under a continuous map of locally closed sets are locally closed. On the other hand, a union and a complement of locally closed subsets need not be locally closed. (This motivates the notion of a constructible set.)

Especially in stratification theory, for a locally closed subset $E,$ the complement ${\overline {E}}\setminus E$ is called the boundary of $E$ (not to be confused with topological boundary). If $E$ is a closed submanifold-with-boundary of a manifold $M,$ then the relative interior (that is, interior as a manifold) of $E$ is locally closed in $M$ and the boundary of it as a manifold is the same as the boundary of it as a locally closed subset.

A topological space is said to be submaximal if every subset is locally closed. See Glossary of topology#S for more of this notion.

Notes

^ Bourbaki 2007, Ch. 1, § 3, no. 3.
^ Pflaum 2001, Explanation 1.1.2.
Ganster, M.; Reilly, I. L. (1989). "Locally closed sets and LC -continuous functions". International Journal of Mathematics and Mathematical Sciences. 12 (3): 417–424. doi:10.1155/S0161171289000505. ISSN 0161-1712.
Engelking 1989, Exercise 2.7.1.
Mather, John (2012). "Notes on Topological Stability". Bulletin of the American Mathematical Society. 49 (4): 475–506. doi:10.1090/S0273-0979-2012-01383-6.section 1, p. 476
Bourbaki 2007, Ch. 1, § 3, Exercise 7.

References

Bourbaki, Nicolas (2007). Topologie générale. Chapitres 1 à 4. Berlin: Springer. doi:10.1007/978-3-540-33982-3. ISBN 978-3-540-33982-3.
Bourbaki, Nicolas (1989) . General Topology: Chapters 1–4 [Topologie Générale]. Éléments de mathématique. Berlin New York: Springer Science & Business Media. ISBN 978-3-540-64241-1. OCLC 18588129.
Engelking, Ryszard (1989). General Topology. Heldermann Verlag, Berlin. ISBN 3-88538-006-4.
Pflaum, Markus J. (2001). Analytic and geometric study of stratified spaces. Lecture Notes in Mathematics. Vol. 1768. Berlin: Springer. ISBN 3-540-42626-4. OCLC 47892611.

External links

locally closed set at the nLab

Category:

General topology