Let $X$ be a locally compact metric space and $G$ be a discontinuous group of homeomorphisms of $X$. I need to show that the orbit map $p :$ $X \rightarrow X/G$ has the path lifting property.
Defn : A group $G$ of homeomorphisms of a topological space $X$ is called discontinuous if for each point $x\in X$
$G_x :=$ the stabilizer of $x$, is finite.
$x$ has an open neighbourhood $U$ such that $gU \cap U = \emptyset$ for all $g \notin G_x$
Defn : A map $f:X \rightarrow Y$ between topological spaces is said to have the path lifting property if for each path $\alpha : I \rightarrow Y$ and each point $x\in f^{-1}(\alpha (0))$ there is a path $\tilde{\alpha}:I \rightarrow X$ such that $f\tilde{\alpha} = \alpha$ and $\tilde{\alpha}(0)=x$.
If $X$ is a compact metric space then I have shown that the orbit map has the path lifting property. Now when $X$ is locally compact for each point $x\in X$ I can find a compact neighbourhood $U_x$ which is $G_x$ - stable and mapped outside itself by any element not in $G_x$.
For $p: U_x \rightarrow U_x/G_x $ I can apply the path lifting property. Is it possible to glue these lifts so that I get a lift from all of $X$?
Thank you.
