Singular Lagrangian torus fibrations on the smoothing of algebraic cones

Abstract

Given a lattice polytope Q⊂ Rn, we can consider the cone σ=C(Q)=\λ(q,1)∈ Rn+1|λ ∈ R≥0, q∈ Q\ ⊂ Rn+1, and the affine toric variety Yσ associated to σ. Altmann showed that the versal deformation space of Yσ can be described by the Minkowski decomposition of the polytope Q. Under some conditions on Q, we can obtain a smooth deformation Yε of Yσ using Altmann's result. In this article, we consider Yε inside some CN and construct a complex fibration on Yε, with general fibre (C*)n and finite singular fibres described using global coordinates related to the components of the Minkowski decomposition. We construct a singular Lagrangian torus fibration out of the complex fibration. This singular fibration admits a convex base diagram representation with cuts as a natural generalization of base diagrams described by Symington for Almost Toric Fibrations (=4). In particular, we obtain a convex base diagram whose image is the dual cone of C(Q). There is a 1-parameter family of monotone Lagrangian tori in each of these fibrations. Using the wall-crossing formula, we describe the potential associated with this family in terms of the Minkowski decomposition of Q, recovering the result of Lau, and discuss non-displaceability. We also discuss some other consequences of our results.

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