# Isometric immersions in locally conformally Kahler geometry

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Daniele Angella
(Dipartimento di Matematica e Informatica "Ulisse Dini", Università di Firenze)

created by daniele on 01 Jan 2019

modified on 04 Jan 2019

1 dec 2018
-- 10:00

Aula Magna, Dipartimento di Matematica, Pisa

**Abstract.**

The celebrated Kodaira Embedding Theorem gives geometric and cohomological conditions under which analytic geometry reduces to algebraic geometry: it gives a holomorphic embedding for Hodge manifolds into some projective space. In general, such an embedding is not isometric.
The problem of which real-analytic K\"ahler manifolds admit an isometric immersion into $\mathds{C}{\mathrm P}^n$, or more in general into complex space forms has been studied by Eugenio Calabi, by introducing the {\em diastasis function}.

{\em Locally conformally geometry} is a sort of "equivariant (homothetic) K\"ahler geometry" and a first specific non-K\"ahler setting. Despite the K\"ahler condition imposes strong topological obstructions, almost all known compact complex surfaces admit locally conformally K\"ahler structures, the only exceptions being the Inoue surfaces.
In the lcK context, the analogue of the projective space is played by {\em Hopf manifolds}, and an analogue of the Kodaira embedding has been proven by Liviu Ornea and Misha Verbitsky.

Inspired by Eugenio Calabi's work, we would like to study isometric immersions of lcK manifolds into Hopf manifolds. This forces the lcK manifold to be Vaisman of rank $1$, and asks for writing its positive potential as a sum of squares of norms of holomorphic functions. In particular, we focus on non-K\"ahler compact complex surfaces.

The talk is based on a joint work with Michela Zedda.