Topological properties of function spaces C_k(X,2) over zero-dimensional metric spaces X
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Let $X$ be a zero-dimensional metric space and $X'$ its derived set. We prove the following assertions: (1) the space $C_k(X,2)$ is an Ascoli space iff $C_k(X,2)$ is $k_\mathbb{R}$-space iff either $X$ is locally compact or $X$ is not locally compact but $X'$ is compact, (2) $C_k(X,2)$ is a $k$-space iff either $X$ is a topological sum of a Polish locally compact space and a discrete space or $X$ is not locally compact but $X'$ is compact, (3) $C_k(X,2)$ is a sequential space iff $X$ is a Polish space and either $X$ is locally compact or $X$ is not locally compact but $X'$ is compact, (4) $C_k(X,2)$ is a Fr\'{e}chet--Urysohn space iff $C_k(X,2)$ is a Polish space iff $X$ is a Polish locally compact space, (5) $C_k(X,2)$ is normal iff $X'$ is separable, (6) $C_k(X,2)$ has countable tightness iff $X$ is separable. In cases (1)-(3) we obtain also a topological and algebraical structure of $C_k(X,2)$.
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