Quantizing Carrollian field theories
Abstract
Carrollian field theories have recently emerged as a candidate dual to flat space quantum gravity. We carefully quantize simple two-derivative Carrollian theories, revealing a strong sensitivity to the ultraviolet. They can be regulated upon being placed on a spatial lattice and working at finite inverse temperature. Unlike in conventional field theories, the details of the lattice-regulated Carrollian theories remain important at long distances even in the limit that the lattice spacing is sent to zero. We use that limit to define interacting continuum models with a tractable perturbative expansion. The ensuing theories are those of generalized free fields, with non-Gaussian correlations suppressed by positive powers of the lattice spacing, and an unbroken supertranslation symmetry.
Cite
@article{arxiv.2407.11971,
title = {Quantizing Carrollian field theories},
author = {Jordan Cotler and Kristan Jensen and Stefan Prohazka and Amir Raz and Max Riegler and Jakob Salzer},
journal= {arXiv preprint arXiv:2407.11971},
year = {2024}
}
Comments
48 pages, 2 figures; v2: minor changes, matches published version