Geometric realisations of type An preprojective algebras in homological mirror symmetry

Abstract

The type An-singularity C2/Zn+1 can be resolved by hyper-K\"ahler manifolds Xζ with underlying smooth manifolds diffeomorphic to the resolution of singularities Xres, whose hyper-K\"ahler structure depends on a parameter ζ∈ H2(Xres;R). The structure as a complex manifold of each such hyper-K\"ahler manifold is equivalent to the resolution of singularities at the poles and the structure of a Milnor fibre with roots determined by ζ elsewhere; the symplectic structure is exact along the equator and is deformed by areas depending on ζ on the exceptional (-2)-spheres away from the equator. We show that removing suitable divisors Du from a fixed Xζ varying with u in the underlying upper hemisphere of the S2-family of K\"ahler-structures yields a log Calabi--Yau hyper-K\"ahler family (in particular a family of log Calabi--Yau submanifolds), and that mirror symmetry is satisfied (partly conjectural in one direction) for this family by hyper-K\"ahler rotation, in particular by interchanging the structures over the equator and the pole. We furthermore show homological mirror symmetry after adding the missing divisors, which is related to attaching stops and computing singularity categories of certain Landau--Ginzburg potentials on the A-side and B-side, respectively. More concretely: we compute wrapped Fukaya categories and compare them with (previous and new) computations of derived categories of coherent sheaves and derived categories of singularities in algebraic geometry. We show that the relevant categories (with two exceptions) are triangulated equivalent to module categories over the additive and the multiplicative preprojective algebras of type An, or to deformations of these algebras depending on the parameters ζ.