Locally finite space

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In the mathematical field of topology, a locally finite space is a topological space in which every point has a finite neighborhood, that is, a neighborhood consisting of finitely many elements.

Background

The conditions for local finiteness were created by Jun-iti Nagata and Yury Smirnov while searching for a stronger version of the Urysohn metrization theorem. The motivation behind local finiteness was to formulate a new way to determine if a topological space $X$ is metrizable without the countable basis requirement from Urysohn's theorem.^[1]

Definitions

Let $T=(S,\tau )$ be a topological space and let ${\mathcal {F}}$ be a set of subsets of $S$ Then ${\mathcal {F}}$ is locally finite if and only if each element of $S$ has a neighborhood which intersects a finite number of sets in ${\mathcal {F}}$ .^[2]

A locally finite space is an Alexandrov space.^[1]

A T₁ space is locally finite if and only if it is discrete.^[3]

References

^ ^a ^b Munkres, James Raymond (2000). Topology (PDF) (2nd ed.). Upper Saddle River (N. J.): Prentice Hall. pp. 155–157. ISBN 0-13-181629-2. Retrieved 24 March 2025.
^ Willard, Stephen (2016). "6". General topology. Mineola, N.Y: Dover Publications. ISBN 978-0-486-43479-7.
^ Nakaoka, Fumie; Oda, Nobuyuki (2001). "Some applications of minimal open sets". International Journal of Mathematics and Mathematical Sciences. 29 (8): 471–476. doi:10.1155/S0161171201006482.

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[Munkres-1] Munkres, James Raymond (2000). Topology (PDF) (2nd ed.). Upper Saddle River (N. J.): Prentice Hall. pp. 155–157. ISBN 0-13-181629-2. Retrieved 24 March 2025.

[2] Willard, Stephen (2016). "6". General topology. Mineola, N.Y: Dover Publications. ISBN 978-0-486-43479-7.

[3] Nakaoka, Fumie; Oda, Nobuyuki (2001). "Some applications of minimal open sets". International Journal of Mathematics and Mathematical Sciences. 29 (8): 471–476. doi:10.1155/S0161171201006482.

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