Classification of asymptotically conical Calabi–Yau manifolds

Ronan J. Conlon; Hans-Joachim Hein

doi:10.1215/00127094-2023-0030

Abstract

A Riemannian cone $(C, g_{C})$ is by definition a warped product $C = R^{+} \times L$ with metric $g_{C} = d r^{2} \oplus r^{2} g_{L}$ , where $(L, g_{L})$ is a compact Riemannian manifold without boundary. We say that C is a Calabi–Yau cone if $g_{C}$ is a Ricci-flat Kähler metric and if C admits a $g_{C}$ -parallel holomorphic volume form; this is equivalent to the cross-section $(L, g_{L})$ being a Sasaki–Einstein manifold. In this paper, we give a complete classification of all smooth complete Calabi–Yau manifolds asymptotic to some given Calabi–Yau cone at a polynomial rate at infinity. As a special case, this includes a proof of Kronheimer’s classification of ALE hyper-Kähler 4-manifolds without twistor theory.

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Ronan J. Conlon. Hans-Joachim Hein. "Classification of asymptotically conical Calabi–Yau manifolds." Duke Math. J. 173 (5) 947 - 1015, 1 April 2024. https://doi.org/10.1215/00127094-2023-0030

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Received: 11 March 2022; Revised: 10 May 2023; Published: 1 April 2024

First available in Project Euclid: 29 April 2024

Digital Object Identifier: 10.1215/00127094-2023-0030

Subjects:

Primary: 53C25

Secondary: 14J32

Keywords: asymptotically conical Calabi-Yau , Calabi-Yau manifolds , deformation to the normal cone , deformations and resolutions of isolated singularities , Euclidean volume growth , Kronheimer’s classification , Tian-Yau construction

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