Towards background independent quantum gravity with tensor models
Abstract
We explore whether the phase diagram of tensor models could feature a pregeometric, discrete and a geometric, continuum phase for the building blocks of space. The latter are associated to rank tensors of size . We search for a universal large scaling limit in a rank-3 model with real tensors that could be linked to a transition between the two phases. We extend the conceptual development and practical implementation of the flow equation for the pregeometric setting. This provides a pregeometric "coarse-graining" by going from many microscopic to few effective degrees of freedom by lowering . We discover several candidates for fixed points of this coarse graining procedure, and specifically explore the impact of a novel class of interactions allowed in the real rank-3 model. In particular, we explain how most universality classes feature dimensional reduction, while one candidate, involving a tetrahedral interaction, might potentially be of relevance for three-dimensional quantum gravity.
Cite
@article{arxiv.1811.00814,
title = {Towards background independent quantum gravity with tensor models},
author = {Astrid Eichhorn and Tim Koslowski and Johannes Lumma and Antonio D. Pereira},
journal= {arXiv preprint arXiv:1811.00814},
year = {2020}
}
Comments
23 pages plus appendix and references