Gauge invariant effective actions for dressed fields
Abstract
A new fundamental form of the path integral for theories with local symmetry is introduced. It is utilised to construct effective actions that generate correlation functions of dressed fields in Yang-Mills theories and quantum gravity. The construction entails a novel BRST symmetric gauge fixing which imposes that the on-shell correlation functions are those of gauge invariant fields. We demonstrate that the effective actions are gauge and diffeomorphism invariant respectively, with appropriate transformations for the Faddeev-Popov ghosts and Nakanishi-Lautrup fields. As a consistency check, the on-shell one-loop effective actions are shown to take the expected gauge independent form. The effective action which satisfies Zinn-Justin's master equation is also gauge invariant with the anti-fields transforming accordingly. While our choice of gauge will in general be non-linear and non-local, we argue that these gauges are in fact stable under renormalisation if one allows for general renormalised field variables.
Cite
@article{arxiv.2503.05869,
title = {Gauge invariant effective actions for dressed fields},
author = {Kevin Falls},
journal= {arXiv preprint arXiv:2503.05869},
year = {2025}
}
Comments
v2: Argument on the stability of the gauge is refined and given in section XV, section XVI is added, and new references are added. v3: comments added and typos fixed