English

AdS$_3$/RMT$_2$ Duality

High Energy Physics - Theory 2023-11-06 v2

Abstract

We introduce a framework for quantifying random matrix behavior of 2d CFTs and AdS3_3 quantum gravity. We present a 2d CFT trace formula, precisely analogous to the Gutzwiller trace formula for chaotic quantum systems, which originates from the SL(2,Z)SL(2,\mathbb{Z}) spectral decomposition of the Virasoro primary density of states. An analogy to Berry's diagonal approximation allows us to extract spectral statistics of individual 2d CFTs by coarse-graining, and to identify signatures of chaos and random matrix universality. This leads to a necessary and sufficient condition for a 2d CFT to display a linear ramp in its coarse-grained spectral form factor. Turning to gravity, AdS3_3 torus wormholes are cleanly interpreted as diagonal projections of squared partition functions of microscopic 2d CFTs. The projection makes use of Hecke operators. The Cotler-Jensen wormhole of AdS3_3 pure gravity is shown to be extremal among wormhole amplitudes: it is the minimal completion of the random matrix theory correlator compatible with Virasoro symmetry and SL(2,Z)SL(2,\mathbb{Z})-invariance. We call this MaxRMT: the maximal realization of random matrix universality consistent with the necessary symmetries. Completeness of the SL(2,Z)SL(2,\mathbb{Z}) spectral decomposition as a trace formula allows us to factorize the Cotler-Jensen wormhole, extracting the microscopic object ZRMT(τ)Z_{\rm RMT}(\tau) from the coarse-grained product. This captures details of the spectrum of BTZ black hole microstates. ZRMT(τ)Z_{\rm RMT}(\tau) may be interpreted as an AdS3_3 half-wormhole. We discuss its implications for the dual CFT and modular bootstrap at large central charge.

Keywords

Cite

@article{arxiv.2307.03707,
  title  = {AdS$_3$/RMT$_2$ Duality},
  author = {Gabriele Di Ubaldo and Eric Perlmutter},
  journal= {arXiv preprint arXiv:2307.03707},
  year   = {2023}
}

Comments

47 pages + appendices. v2: some clarifications and slight reorganization, fixed typos, added refs and a figure

R2 v1 2026-06-28T11:24:43.178Z