Arhangel'ski sheaf amalgamations in topological groups

Abstract

We consider amalgamation properties of convergent sequences in topological groups and topological vector spaces. The main result of this paper is that, for arbitrary topological groups, Nyikos's property α1.5 is equivalent to Arhangel'ski's formally stronger property α1. This result solves a problem of Shakhmatov (2002), and its proof uses a new perturbation argument. We also prove that there is a topological space X such that the space Cp(X) of continuous real-valued functions on X, with the topology of pointwise convergence, has Arhangel'ski's property α1 but is not countably tight. This result follows from results of Arhangel'ski--Pytkeev, Moore and Todorcevi\'c, and provides a new solution, with remarkable properties, to a problem of Averbukh and Smolyanov (1968) concerning topological vector spaces. The Averbukh--Smolyanov problem was first solved by Plichko (2009), using Banach spaces with weaker locally convex topologies.