IUMJ

Title: Localization and compactness in Bergman and Fock spaces

Authors: Joshua Isralowitz, Mishko Mitkovski and Brett D. Wick

Issue: Volume 64 (2015), Issue 5, 1553-1573

Abstract:

In this paper, we study the compactness of operators on the Bergman space of the unit ball and on very generally weighted Bargmann-Fock spaces in terms of the behavior of their Berezin transforms and the norms of the operators acting on reproducing kernels. In particular, in the Bergman space setting, we show how a vanishing Berezin transform combined with certain (integral) growth conditions on an operator $T$ are sufficient to imply that the operator is compact. In the weighted Bargmann-Fock space setting, we show that the reproducing kernel thesis for compactness holds for operators satisfying similar growth conditions. The main results extend the results of Xia and Zheng to the case of the Bergman space when $1<p<\infty$; and in the weighted Bargmann-Fock space setting, our results provide new, more general conditions that imply the work of Xia and Zheng via a more familiar approach that can also handle the $1<p<\infty$ case.