Strange higher-spin topological systems in 3D
Abstract
Motivated by the generation of action principles from off-shell dualisation, we present a general class of free, topological theories in three dimensional Minkowski spacetime that exhibit higher-spin gauge invariance. In the spin-two case, we recover a dual reformulation of the triplet system already known, while the higher-spin systems that we obtain seem to be new. They are associated with wild quivers. We study in which situations these exotic (or strange) higher-spin models can be extended to dS and AdS backgrounds, revealing that the flat limit of such models, when they exist, admits a one-parameter freedom. Interactions are studied in the simplest higher-spin case featuring spin-2 and spin-3 fields. We then give several higher-spin generalisations of these strange systems.
Cite
@article{arxiv.2312.03382,
title = {Strange higher-spin topological systems in 3D},
author = {Nicolas Boulanger and Andrea Campoleoni and Victor Lekeu and Evgeny Skvortsov},
journal= {arXiv preprint arXiv:2312.03382},
year = {2023}
}
Comments
53 pages