A 2d/1d Holographic Duality
Abstract
We propose /CFT dualities between exactly solvable topological quantum mechanics theories with vector or matrix large limits (on the boundary) and weakly coupled gauge theories on a fixed background (in the bulk). The boundary theories can be embedded as 1d sectors of 3d superconformal field theories with holographic duals, from which they can be obtained using supersymmetric localization. We study a few examples of such 1d theories: theories with vector large limits that are embedded into 3d theories of many free massless hypermultiplets with higher spin duals; and a 1d theory with a matrix large limit embedded into the 3d ABJM theory at Chern-Simons level , which has an supergravity dual. We propose that the singlet sectors of the 1d vector models are dual to 2d gauge theories on whose gauge algebras are finite dimensional and whose full non-linear actions we completely determine in some cases. The 1d theory embedded into ABJM theory has a -invariant sector dual to a 2d gauge theory on whose gauge algebra is the infinite dimensional algebra of area preserving diffeomorphisms of a two-sphere. We provide evidence that the 2d gauge theories on can be obtained from localizing the duals of the 3d SCFTs mentioned above, and thus argue that our 2d/1d dualities can be obtained via supersymmetric localization on both sides of their parent /CFT dualities. We discuss the boundary terms required by holographic renormalization in the 2d gauge theories on and show how they arise from supersymmetric localization.
Cite
@article{arxiv.1703.08749,
title = {A 2d/1d Holographic Duality},
author = {Márk Mezei and Silviu S. Pufu and Yifan Wang},
journal= {arXiv preprint arXiv:1703.08749},
year = {2017}
}
Comments
70 pages plus appendices, 4 figures