2d Sigma Models on Non-compact Calabi-Yau and N=2 Liouville Theory

Abstract

We consider a class of two dimensional conformal N=2 supersymmetric U(1) gauge linear sigma models with N fields of charges +1 and N fields of charges -1, whose Higgs branches are non-compact toric Calabi-Yau manifolds of complex dimension 2N-1. We show, starting from large-N approximation, that the Coulomb branch of these models, which opens up at strong coupling, is described by N=2 Liouville theory and then extrapolate it to exact equivalence demanding the central charge of the Liouville theory to be c=2N-1. Next we concentrate on mostly physically attractive N=2 and N ≥ 3 cases and find there a perfect agreement of the set of complex moduli on the Calabi-Yau side with the marginal deformations in N=2 Liouville theory, supporting proposed exact equivalence.