Topological category

In category theory, a discipline in mathematics, the notion of topological category has a number of different, inequivalent definitions.

In one approach, a topological category is a category that is enriched over the category of compactly generated Hausdorff spaces. They can be used as a foundation for higher category theory, where they can play the role of (∞,1)-categories. An important example of a topological category in this sense is given by the category of CW complexes, where each set Hom(X,Y) of continuous maps from X to Y is equipped with the compact-open topology. (Lurie 2009)

In another approach, a topological category is defined as a category $C$ along with a forgetful functor $T:C\to {\mathbf {Set}}$ that maps to the category of sets and has the following three properties:

$C$ admits initial (or weak) structures with respect to $T$
Constant functions in $\mathbf {Set}$ lift to $C$ -morphisms
Fibers $T^{{-1}}x,x\in {\mathbf {Set}}$ are small (they are sets and not proper classes).

An example of a topological category in this sense is the categories of all topological spaces with continuous maps, where one uses the standard forgetful functor.^[1]

References

↑ Brümmer, G. C. L. (September 1984). "Topological categories". Topology and its Applications. 18 (1): 27–41. doi:10.1016/0166-8641(84)90029-4. Retrieved 1 October 2013.

Lurie, Jacob (2009), Higher topos theory, Annals of Mathematics Studies, 170, Princeton University Press, arXiv:math.CT/0608040, ISBN 978-0-691-14049-0, MR 2522659

This article is issued from Wikipedia - version of the 12/27/2014. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

Topological category

See also

References