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The Virasoro Minimal String

by Scott Collier, Lorenz Eberhardt, Beatrix Mühlmann, Victor A. Rodriguez

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Submission summary

Authors (as registered SciPost users): Scott Collier · Lorenz Eberhardt · Beatrix Mühlmann
Submission information
Preprint Link: https://arxiv.org/abs/2309.10846v3  (pdf)
Date accepted: 2024-02-16
Date submitted: 2024-01-17 15:44
Submitted by: Mühlmann, Beatrix
Submitted to: SciPost Physics
Ontological classification
Academic field: Physics
Specialties:
  • High-Energy Physics - Theory
Approach: Theoretical

Abstract

We introduce a critical string theory in two dimensions and demonstrate that this theory, viewed as two-dimensional quantum gravity on the worldsheet, is equivalent to a double-scaled matrix integral. The worldsheet theory consists of Liouville CFT with central charge $c\geq 25$ coupled to timelike Liouville CFT with central charge $26-c$. The double-scaled matrix integral has as its leading density of states the universal Cardy density of primaries in a two-dimensional CFT, thus motivating the name Virasoro minimal string. The duality holds for any value of the continuous parameter $c$ and reduces to the JT gravity/matrix integral duality in the large central charge limit. It thus provides a precise stringy realization of JT gravity. The main observables of the Virasoro minimal string are quantum analogues of the Weil-Petersson volumes, which are computed as absolutely convergent integrals of worldsheet CFT correlators over the moduli space of Riemann surfaces. By exploiting a relation of the Virasoro minimal string to three-dimensional gravity and intersection theory on the moduli space of Riemann surfaces, we are able to give a direct derivation of the duality. We provide many checks, such as explicit numerical - and in special cases, analytic - integration of string diagrams, the identification of the CFT boundary conditions with asymptotic boundaries of the two-dimensional spacetime, and the matching between the leading non-perturbative corrections of the worldsheet theory and the matrix integral. As a byproduct, we discover natural conformal boundary conditions for timelike Liouville CFT.

Published as SciPost Phys. 16, 057 (2024)


Reports on this Submission

Report #2 by Anonymous (Referee 2) on 2024-2-7 (Invited Report)

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The authors made adequate changes to the paper to address some comments and concerns, and I recommend publication.

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Report #1 by Sylvain Ribault (Referee 1) on 2024-1-25 (Invited Report)

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The new version features a number of small improvements, mainly clarifications about subtle points, and corrections of typographical errors. The article will always remain challenging to read in detail, because of its thematic and technical breadth. However, I am satisfied that the main ideas and results are presented in a clear an convincing way --- this did not change from the previous version. I have no further modifications to suggest.

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