Taras Banakh
Published 2010-11-20Version 1
A topological group $G$ is called an $M_\omega$-group if it admits a countable cover $\K$ by closed metrizable subspaces of $G$ such that a subset $U$ of $G$ is open in $G$ if and only if $U\cap K$ is open in $K$ for every $K\in\K$. It is shown that any two non-metrizable uncountable separable zero-dimenisional $M_\omega$-groups are homeomorphic. Together with Zelenyuk's classification of countable $k_\omega$-groups this implies that the topology of a non-metrizable zero-dimensional $M_\omega$-group $G$ is completely determined by its density and the compact scatteredness rank $r(G)$ which, by definition, is equal to the least upper bound of scatteredness indices of scattered compact subspaces of $G$.
Comments: 4 pages
Journal: Mat. Stud. 15:1 (2001) 109-112
Topological classification of affine operators on unitary and Euclidean spaces
The topological classification of spaces of metrics with the uniform convergence topology
On topological classification of normed spaces endowed with the weak topology or the topology of compact convergence
![QR code for arXiv:1011.4555 [math.GN]](http://oss.arxitics.com/images/favicon.svg)