Difference between revisions of "Covering space"

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== See also ==
 
== See also ==
  
* [[Mathematics]]
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* [[Bethe lattice]] - the universal cover of a [[Cayley graph]]
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* [[Covering graph]] - a covering space for an [[undirected graph]], and its special case the [[bipartite double cover]].
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* [[Covering group]]
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* [[Degrees of freedom]]
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* [[Fundamental group]]
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* [[Galois connection]]
  
 
== External links ==  
 
== External links ==  
  
 
* [https://en.wikipedia.org/wiki/Covering_space Covering space] @ Wikipedia
 
* [https://en.wikipedia.org/wiki/Covering_space Covering space] @ Wikipedia
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[[Category:Mathematics]]

Latest revision as of 06:45, 19 September 2016

In mathematics, more specifically algebraic topology, a covering map (also covering projection) is a continuous function p from a topological space, C, to a topological space, X, such that each point in X has an open neighbourhood evenly covered by p (as shown in the image)

In this case, C is called a covering space and X the base space of the covering projection.

Description

The definition implies that every covering map is a local homeomorphism.

Covering spaces play an important role in homotopy theory, harmonic analysis, Riemannian geometry and differential topology. In Riemannian geometry for example, ramification is a generalization of the notion of covering maps.

Covering spaces are also deeply intertwined with the study of homotopy groups and, in particular, the fundamental group.

An important application comes from the result that, if X is a "sufficiently good" topological space, there is a bijection between the collection of all isomorphism classes of connected coverings of X and the subgroups of the fundamental group of X.

See also

External links