A one-dimensional action for simplicial gravity in three dimensions
Abstract
This article presents a derivation of the Ponzano--Regge model from a one-dimensional spinor action. The construction starts from the first-order Palatini formalism in three dimensions. We then introduce a simplicial decomposition of the three-dimensional manifold and study the discretised action in the spinorial representation of loop gravity. A one-dimensional refinement limit along the edges of the discretisation brings us back to a continuum formulation. The three-dimensional action turns into a line integral over the one-skeleton of the simplicial manifold. All fields are continuous but have support only along the one-dimensional edges. We define the path integral, and remove the redundant integrals over the local gauge orbits through the usual Faddeev--Popov procedure. The resulting state sum model reproduces the Ponzano--Regge amplitudes.
Keywords
Cite
@article{arxiv.1402.6708,
title = {A one-dimensional action for simplicial gravity in three dimensions},
author = {Wolfgang M. Wieland},
journal= {arXiv preprint arXiv:1402.6708},
year = {2014}
}
Comments
19 pages, two figures