um-Topology in multi-normed vector lattices

Abstract

Let M=\mλ\λ∈ be a separating family of lattice seminorms on a vector lattice X, then (X,M) is called a multi-normed vector lattice (or MNVL). We write xα m x if mλ(xα-x) 0 for all λ∈. A net xα in an MNVL X=(X,M) is said to be unbounded m-convergent (or um-convergent) to x if xα-x u m 0 for all u∈ X+. um-Convergence generalizes un-convergence DOT,KMT and uaw-convergence Zab, and specializes up-convergence AEEM1 and uτ-convergence DEM2. um-Convergence is always topological, whose corresponding topology is called unbounded m-topology (or um-topology). We show that, for an m-complete metrizable MNVL (X,M), the um-topology is metrizable iff X has a countable topological orthogonal system. In terms of um-completeness, we present a characterization of MNVLs possessing both Lebesgue's and Levi's properties. Then, we characterize MNVLs possessing simultaneously the σ-Lebesgue and σ-Levi properties in terms of sequential um-completeness. Finally, we prove that any m-bounded and um-closed set is um-compact iff the space is atomic and has Lebesgue's and Levi's properties.