On $\mathfrak{P}$-spaces and related concepts

S. S. Gabriyelyan, J. Kakol

Published 2014-12-03Version 1

The concept of the strong Pytkeev property, recently introduced by Tsaban and Zdomskyy in [32], was successfully applied to the study of the space $C_c(X)$ of all continuous real-valued functions with the compact-open topology on some classes of topological spaces $X$ including \v{C}ech-complete Lindel\"{o}f spaces. Being motivated also by several results providing various concepts of networks we introduce the class of $\mathfrak{P}$-spaces strictly included in the class of $\aleph$-spaces. This class of generalized metric spaces is closed under taking subspaces, topological sums and countable products and any space from this class has countable tightness. Every $\mathfrak{P}$-space $X$ has the strong Pytkeev property. The main result of the present paper states that if $X$ is an $\aleph_0$-space and $Y$ is a $\mathfrak{P}$-space, then the function space $C_c(X,Y)$ has the strong Pytkeev property. This implies that for a separable metrizable space $X$ and a metrizable topological group $G$ the space $C_c(X,G)$ is metrizable if and only if it is Fr\'{e}chet-Urysohn. We show that a locally precompact group $G$ is a $\mathfrak{P}$-space if and only if $G$ is metrizable.