Elsevier

Journal of Functional Analysis

Volume 250, Issue 2, 15 September 2007, Pages 442-482
Journal of Functional Analysis

The weighted Monge–Ampère energy of quasiplurisubharmonic functions

https://doi.org/10.1016/j.jfa.2007.04.018Get rights and content
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Abstract

We study degenerate complex Monge–Ampère equations on a compact Kähler manifold (X,ω). We show that the complex Monge–Ampère operator (ω+ddc)n is well defined on the class E(X,ω) of ω-plurisubharmonic functions with finite weighted Monge–Ampère energy. The class E(X,ω) is the largest class of ω-psh functions on which the Monge–Ampère operator is well defined and the comparison principle is valid. It contains several functions whose gradient is not square integrable. We give a complete description of the range of the operator (ω+ddc)n on E(X,ω), as well as on some of its subclasses. We also study uniqueness properties, extending Calabi's result to this unbounded and degenerate situation, and we give applications to complex dynamics and to the existence of singular Kähler–Einstein metrics.

Keywords

Complex Monge–Ampère operator
Kähler manifold
ω-Plurisubharmonic functions
Weighted energy

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