On orientations for gauge-theoretic moduli spaces

Abstract

Let X be a compact manifold, D a real elliptic operator on X, G a Lie group, P X a principal G-bundle, and BP the infinite-dimensional moduli space of all connections ∇P on P modulo gauge, as a topological stack. For each [∇P]∈ BP, we can consider the twisted elliptic operator D∇Ad(P) on X. This is a continuous family of elliptic operators over the base BP, and so has an orientation bundle ODP BP, a principal Z2-bundle parametrizing orientations of KerD∇Ad(P)∇Ad(P) at each [∇P]. An orientation on ( BP,D) is a trivialization ODP BP× Z2. In gauge theory one studies moduli spaces M of connections ∇P on P satisfying some curvature condition, such as anti-self-dual instantons on Riemannian 4-manifolds (X, g). Under good conditions M is a smooth manifold, and orientations on ( BP,D) pull back to orientations on M in the usual sense under the inclusion M BP. This is important in areas such as Donaldson theory, where one needs an orientation on M to define enumerative invariants. We explain a package of techniques, some known and some new, for proving orientability and constructing canonical orientations on ( BP,D), after fixing some algebro-topological information on X. We use these to construct canonical orientations on gauge theory moduli spaces, including new results for moduli spaces of flat connections on 2- and 3-manifolds, instantons, Kapustin-Witten and Vafa-Witten equations on 4-manifolds, and the Haydys-Witten equations on 5-manifolds. Two sequels arXiv:1811.02405, arXiv:1811.09658 discuss orientations in 7 and 8 dimensions.