The Holonomy Inverse Problem

Abstract

Let (M,g) be a smooth Anosov Riemannian manifold and C the set of its primitive closed geodesics. Given a Hermitian vector bundle E equipped with a unitary connection ∇E, we define T(E, ∇E) as the sequence of traces of holonomies of ∇E along elements of C. This descends to a homomorphism on the additive moduli space A of connections up to gauge T: (A, ) ∞(C), which we call the primitive trace map. It is the restriction of the well-known Wilson loop operator to primitive closed geodesics. The main theorem of this paper shows that the primitive trace map T is locally injective near generic points of A when (M) ≥ 3. We obtain global results in some particular cases: flat bundles, direct sums of line bundles, and general bundles in negative curvature under a spectral assumption which is satisfied in particular for connections with small curvature. As a consequence of the main theorem, we also derive a spectral rigidity result for the connection Laplacian. The proofs are based on two new ingredients: a Livsic-type theorem in hyperbolic dynamical systems showing that the cohomology class of a unitary cocycle is determined by its trace along closed primitive orbits, and a theorem relating the local geometry of A with the Pollicott-Ruelle resonance near zero of a certain natural transport operator.