3d Quantum Gravity Partition Function at 3 Loops: a brute force computation
Abstract
The partition function of 3-dimensional quantum gravity has been argued to be 1-loop exact. Here, we verify the vanishing of higher-orders in perturbation theory by explicit computation in the second-order, metric formulation at 3-loops. The number of 1-particle irreducible Feynman diagrams involving both gravitons and ghosts turns out to be 17. Using dimensional regularization, we solve all the diagrams. At 2-loops, we find that all such diagrams vanish separately after regularization. At 3-loops, in contrast, a series of remarkable cancellations between different diagrams takes place, with 9 diagrams beautifully conspiring to yield a vanishing result. Our techniques are suitable to be applied to higher loops as well as to similar computations in higher dimensions.
Cite
@article{arxiv.2307.03830,
title = {3d Quantum Gravity Partition Function at 3 Loops: a brute force computation},
author = {Mauricio Leston and Andrés Goya and Guillem Pérez-Nadal and Mario Passaglia and Gaston Giribet},
journal= {arXiv preprint arXiv:2307.03830},
year = {2023}
}
Comments
6 pages, 8 figures, v3 comments and references added