Spinning up the spool: Massive spinning fields in 3d quantum gravity

Abstract

We show how to incorporate massive spinning fields into the Euclidean path integral of three-dimensional quantum gravity via its Chern-Simons formulation. The coupling of the spinning fields to gravity is captured by a Wilson spool, a collection of Wilson loops winding around closed paths of the geometry, and generalizes the proposal of [1,2]. We present a robust derivation of the Wilson spool by providing a new group-theoretic perspective of the quasinormal mode method for one-loop determinants. We test our proposal on Euclidean BTZ and S3 backgrounds. We also evaluate explicitly the quantum corrections to the path integral on S3, and report on how GN and the mass are renormalized to leading order in perturbation theory.

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