OLD PAGE

$$\newcommand{\bigudot}{ \mathchoice{\mathop{\bigcup\mkern-15mu\cdot\mkern8mu}}{\mathop{\bigcup\mkern-13mu\cdot\mkern5mu}}{\mathop{\bigcup\mkern-13mu\cdot\mkern5mu}}{\mathop{\bigcup\mkern-13mu\cdot\mkern5mu}} }$$ $$\newcommand{\udot}{\cup\mkern-12.5mu\cdot\mkern6.25mu\!}$$ $$\require{AMScd}\newcommand{\d}[1][]{\mathrm{d}^{#1} }$$

Definition

Here $(E,\mathcal{K})$ and $(X,\mathcal{J})$ are topological spaces

Covering projection

A map $$p:(E,\mathcal{K})\rightarrow(X,\mathcal{J})$$ is a covering projection (also known as covering map) if^[1]:

• $$\forall x\in X\exists U\in\mathcal{J}\ \exists$$ a non-empty collection of disjoint open sets $V_\alpha$ such that $$p^{-1}(U)=\bigudot_{\alpha\in I}V_\alpha$$ where $$\forall\alpha\in I$$ we have $$p|_{V_\alpha}:V_\alpha\rightarrow X$$ being a homeomorphism

Terminology

• $X$ is the Base space of the covering map (or projection)
• $E$ is the Covering space of the covering map (or projection)

Immediate results

• The covering map is a surjection (it is clearly onto, as for all points in $X$ - something must map to it!)

Examples

TODO: add example from reference - maybe take a picture

References

1. Jump up ↑ http://www.math.toronto.edu/mat1300/covering-spaces.pdf