Complex Interpolation between Hilbert, Banach and Operator spaces

Abstract

Motivated by a question of Vincent Lafforgue, we study the Banach spaces X satisfying the following property: there is a function X() tending to zero with >0 such that every operator T L2 L2 with \|T\| that is simultaneously contractive (i.e. of norm 1) on L1 and on L∞ must be of norm X() on L2(X). We show that X()∈ O(α) for some α>0 iff X is isomorphic to a quotient of a subspace of an ultraproduct of θ-Hilbertian spaces for some θ>0 (see Corollary comcor4.3), where θ-Hilbertian is meant in a slightly more general sense than in our previous paper P1. Let Br(L2(μ)) be the space of all regular operators on L2(μ). We are able to describe the complex interpolation space \[ (Br(L2(μ), B(L2(μ))θ. \] We show that T L2(μ) L2(μ) belongs to this space iff T idX is bounded on L2(X) for any θ-Hilbertian space X. More generally, we are able to describe the spaces (B(p0), B(p1))θ or (B(Lp0), B(Lp1))θ for any pair 1 p0,p1 ∞ and 0<θ<1. In the same vein, given a locally compact Abelian group G, let M(G) (resp. PM(G)) be the space of complex measures (resp. pseudo-measures) on G equipped with the usual norm \|μ\|M(G) = |μ|(G) (resp. \[ \|μ\|PM(G) = \|μ(γ)| | γ∈ G\). \] We describe similarly the interpolation space (M(G), PM(G))θ. Various extensions and variants of this result will be given, e.g. to Schur multipliers on B(2) and to operator spaces.