Simpliciality of vector-valued function spaces

Abstract

We investigate integral representation of vector-valued function spaces, i.e., of subspaces H⊂ C(K,E), where K is a compact space and E is a (real or complex) Banach space. We point out that there are two possible ways of generalizing representation theorems known from the scalar case -- either one may represent (all) functionals from H* using E*-valued vector measures on K (as it is done in the literature) or one may represent (some) operators from L(H,E) by scalar measures on K using the Bochner integral. These two ways lead to two different notions of simpliciality which we call `vector simpliciality' and `weak simpliciality'. It turns out that these two notions are in general incomparable. Moreover, the weak simpliciality is not affected by renorming the target space E, while vector simpliciality may be affected. Further, if H contains constants, vector simpliciality is strictly stronger and admits several characterizations (partially analogous to the characterizations known in the scalar case). We also study orderings of measures inspired by C.J.K.~Batty which may be (in special cases) used to characterize H-boundary measures. Finally, we give a finer version of representation theorem using positive measures on K× BE* and characterize uniqueness in this case.