We construct new examples of quasi-asymptotically conical
()
Calabi–Yau manifolds that are not quasi-asymptotically locally Euclidean
().
We do so by first providing a natural compactification of
–spaces
by manifolds with fibered corners and by giving a definition of
–metrics
in terms of an associated Lie algebra of smooth vector fields on this compactification.
Thanks to this compactification and the Fredholm theory for elliptic operators on
–spaces
developed by the second author and Mazzeo, we can in many instances obtain Kähler
–metrics
having Ricci potential decaying sufficiently fast at infinity. This allows us to obtain
Calabi–Yau metrics in the Kähler classes of these metrics by solving a corresponding
complex Monge–Ampère equation.
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