Classification of asymptotically conical Calabi-Yau manifolds
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A Riemannian cone $(C, g_C)$ is by definition a warped product $C = \mathbb{R}^+ \times L$ with metric $g_C = dr^2 \oplus r^2 g_L$, 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 K\"ahler 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-K\"ahler $4$-manifolds without twistor theory.
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Warped quasi-asymptotically conical Calabi-Yau metrics
Constructs new families of complete Calabi-Yau metrics on smoothings of Calabi-Yau cone products, including singular examples showing non-uniqueness for a given tangent cone at infinity.
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