Topological correlators of SU(2), N=2* SYM on four-manifolds

Abstract

We consider topologically twisted N=2, SU(2) gauge theory with a massive adjoint hypermultiplet on a smooth, compact four-manifold X. A consistent formulation requires coupling the theory to a Spinc structure, which is necessarily non-trivial if X is non-spin. We derive explicit formulae for the topological correlation functions when b2+≥ 1. We demonstrate that, when the Spinc structure is canonically determined by an almost complex structure and the mass is taken to zero, the path integral reproduces known results for the path integral of the N=4 gauge theory with Vafa-Witten twist. On the other hand, we reproduce results from Donaldson-Witten theory after taking a suitable infinite mass limit. The topological correlators are functions of the UV coupling constant τ uv and we confirm that they obey the expected S-duality transformation laws. The holomorphic part of the partition function is a generating function for the Euler numbers of the matter (or obstruction) bundle over the instanton moduli space. For b2+=1, we derive a non-holomorphic contribution to the path integral, such that the partition function and correlation functions are mock modular forms rather than modular forms. We comment on the generalization of this work to the large class of N=2 theories of class S.