Computing Riemann-Roch polynomials and classifying hyper-K\"ahler fourfolds
Abstract
We prove that a hyper-K\"ahler fourfold satisfying a mild topological assumption is of K3 deformation type. This proves in particular a conjecture of O'Grady stating that hyper-K\"ahler fourfolds of K3 numerical type are of K3 deformation type. Our topological assumption concerns the existence of two integral degree-2 cohomology classes satisfying certain numerical intersection conditions. There are two main ingredients in the proof. We first prove a topological version of the statement, by showing that our topological assumption forces the Betti numbers, the Fujiki constant, and the Huybrechts-Riemann-Roch polynomial of the hyper-K\"ahler fourfold to be the same as those of K3 hyper-K\"ahler fourfolds. The key part of the article is then to prove the hyper-K\"ahler SYZ conjecture for hyper-K\"ahler fourfolds for divisor classes satisfying the numerical condition mentioned above.
Cite
@article{arxiv.2201.08152,
title = {Computing Riemann-Roch polynomials and classifying hyper-K\"ahler fourfolds},
author = {Olivier Debarre and Daniel Huybrechts and Emanuele Macrì and Claire Voisin},
journal= {arXiv preprint arXiv:2201.08152},
year = {2023}
}
Comments
34 pages. v3: Minor corrections, references updated