Finite entropy vs finite energy

Eleonora Di Nezza; Vincent Guedj; Chinh H. Lu

doi:10.4171/cmh/515

JournalscmhVol. 96, No. 2pp. 389–419

Finite entropy vs finite energy

Eleonora Di Nezza
École Polytechnique, Palaiseau, France, and Sorbonne Université, Paris, France
Vincent Guedj
Université de Toulouse, France
Chinh H. Lu
Université Paris-Saclay, France

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Abstract

Probability measures with either finite Monge–Ampère energy or finite entropy have played a central role in recent developments in Kähler geometry. In this note we make a systematic study of quasi-plurisubharmonic potentials whose Monge–Ampère measures have finite entropy. We show that these potentials belong to the finite energy class $E^{\frac{n}{n - 1}}$ , where $n$ denotes the complex dimension, and provide examples showing that this critical exponent is sharp. Our proof relies on refined Moser–Trudinger inequalities for quasi-plurisubharmonic functions.

Cite this article

Eleonora Di Nezza, Vincent Guedj, Chinh H. Lu, Finite entropy vs finite energy. Comment. Math. Helv. 96 (2021), no. 2, pp. 389–419

DOI 10.4171/CMH/515