Cosmology from confinement?
Abstract
We describe a class of holographic models that may describe the physics of certain four-dimensional big-bang / big-crunch cosmologies. The construction involves a pair of 3D Euclidean holographic CFTs each on a homogeneous and isotropic space coupled at either end of an interval to a Euclidean 4D CFT on with many fewer local degrees of freedom. We argue that in some cases, when the size of is much greater than the length of , the theory flows to a gapped / confining three-dimensional field theory on in the infrared, and this is reflected in the dual description by the asymptotically AdS spacetimes dual to the two 3D CFTs joining up in the IR to give a Euclidean wormhole. The Euclidean construction can be reinterpreted as generating a state of Lorentzian 4D CFT on whose dual includes the physics of a big-bang / big-crunch cosmology. When is , we can alternatively analytically continue one of the directions to get an eternally traversable four-dimensional planar wormhole. We suggest explicit microscopic examples where the 4D CFT is SYM theory and the 3D CFTs are superconformal field theories with opposite orientation. In this case, the two geometries dual to the pair of 3D SCFTs can be understood as a geometrical version of a brane-antibrane pair, and the tendency of the geometries to connect up is related to the standard instability of brane-antibrane systems.
Cite
@article{arxiv.2102.05057,
title = {Cosmology from confinement?},
author = {Mark Van Raamsdonk},
journal= {arXiv preprint arXiv:2102.05057},
year = {2022}
}
Comments
45 pages, 16 figures, v2: typos corrected