Remarks on Weak Compactness in L1(μ,X)

Abstract

Let (Ω,Σ,μ) be a finite measure space and X a Banach space. Denote by L₁ (μ,X) the Banach space of (equivalence classes of) μ-strongly measurable X-valued Bochner integrable functions f:Ω→X normed by The problem of characterizing the relatively weakly compact subsets of L₁(Ω, X) remains open. It is known that for a bounded subset of L₁(μ, X) to be relatively weakly compact it is necessary that the set be uniformly integrable; recall that K ⊆ L₁, (μ, X) is uniformly integrable whenever given ε >0 there exists δ > 0 such that if μ (E) ≦ δ then ∫_E∥f∥ dμ ≦ δ, for all f ∈ K. S. Chatterji has noted that in case X is reflexive this condition is also sufficient [4]. At present unless one assumes that both X and X* have the Radon-Nikodym Property (see [1]), a rather severe restriction which, for purposes of potential applicability, is tantamount to assuming reflexivity, no good sufficient conditions for weak compactness in L₁(μ, X) exist. This note puts forth such sufficient conditions; the basic tool is the recent factorization method of W. J. Davis, T. Figiel, W. B. Johnson and A. Pelczynski [3].