U-topology and m-topology on the ring of Measurable Functions, generalized and revisited

Abstract

Let M(X,A) be the ring of all real valued measurable functions defined over the measurable space (X,A). Given an ideal I in M(X,A) and a measure μ:A[0,∞], we introduce the UμI-topology and the mμI-topology on M(X,A) as generalized versions of the topology of uniform convergence or the U-topology and the m-topology on M(X,A) respectively. With I=M(X,A), these two topologies reduce to the Uμ-topology and the mμ-topology on M(X,A) respectively, already considered before. If I is a countably generated ideal in M(X,A), then the UμI-topology and the mμI-topology coincide if and only if X Z[I] is a μ-bounded subset of X. The components of 0 in M(X,A) in the UμI-topology and the mμI-topology are realized as I L∞(X,A,μ) and I L(X,A,μ) respectively. Here L∞(X,A,μ) is the set of all functions in M(X,A) which are essentially μ-bounded over X and L(X,A,μ)=\f∈ M(X,A): ~∀ g∈M(X,A), f.g∈ L∞(X,A,μ)\. It is established that an ideal I in M(X,A) is dense in the Uμ-topology if and only if it is dense in the mμ-topology and this happens when and only when there exists Z∈ Z[I] such that μ(Z)=0. Furthermore, it is proved that I is closed in M(X,A) in the mμ-topology if and only if it is a Zμ-ideal in the sense that if f g almost everywhere on X with f∈ I and g∈M(X,A), then g∈ I.