Radially weighted Besov spaces and the Pick property

Abstract

For s∈ R the weighted Besov space on the unit ball Bd of Cd is defined by Bsω=\f∈ Hol( Bd): ∫ Bd|Rsf|2 ω dV<∞\. Here Rs is a power of the radial derivative operator R= Σi=1d zi∂∂ zi, V denotes Lebesgue measure, and ω is a radial weight function not supported on any ball of radius < 1. Our results imply that for all such weights ω and , every bounded column multiplication operator Bsω Bt 2 induces a bounded row multiplier Bsω 2 Bt. Furthermore we show that if a weight ω satisfies that for some α >-1 the ratio ω(z)/(1-|z|2)α is nondecreasing for t0<|z|<1, then Bsω is a complete Pick space, whenever s (α+d)/2.