The resurgence of the plateau in supersymmetric $$ \mathcal{N} $$ = 1 Jackiw-Teitelboim gravity

Griguolo, Luca; Papalini, Jacopo; Russo, Lorenzo; Seminara, Domenico

doi:10.1007/jhep06(2024)168

J. High Energ. Phys.

2024

DOI: 10.1007/jhep06(2024)168

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The resurgence of the plateau in supersymmetric $$ \mathcal{N} $$ = 1 Jackiw-Teitelboim gravity

Luca Griguolo,

Jacopo Papalini,

Lorenzo Russo

et al.

Abstract: Significant progresses have been made recently in understanding the spectral form factor of Jackiw-Teitelboim gravity, particularly at late times where non-perturbative effects are expected to play a dominant role. By focusing on a peculiar regime of large time and fixed temperature, called τ-scaling limit, it was found that it is possible to analytically investigate the late-time plateau directly through the gravitational genus expansion. We extend this analysis to the supersymmetric $$ \mathcal{N} $$ … Show more

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Cited by 3 publications

References 72 publications

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Unorientable topological gravity and orthogonal random matrix universality

Weber,

Tall,

Haneder

et al. 2024

J. High Energ. Phys.

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The duality of Jackiw-Teitelboim (JT) gravity and a double scaled matrix integral has led to studies of the canonical spectral form factor (SFF) in the so called τ−scaled limit of large times, t → ∞, and fixed temperature, in order to demonstrate agreement with universal random matrix theory (RMT). Though this has been established for the unitary case, extensions to other symmetry classes requires the inclusion of unorientable manifolds in the sum over geometries, necessary to address time reversal invariance, and regularization of the corresponding prime geometrical objects, the Weil-Petersson (WP) volumes. We report here how universal signatures of quantum chaos, witnessed by the fidelity to the Gaussian orthogonal ensemble, emerge for the low-energy limit of unorientable JT gravity, i.e. the unorientable Airy model/topological gravity. To this end, we implement the loop equations for the corresponding dual (double-scaled) matrix model and find the generic form of the unorientable Airy WP volumes, supported by calculations using unorientable Kontsevich graphs. In an apparent violation of the gravity/chaos duality, the τ−scaled SFF on the gravity side acquires both logarithmic and power law contributions in t, not manifestly present on the RMT side. We show the expressions can be made to agree by means of bootstrapping-like relations hidden in the asymptotic expansions of generalized hypergeometric functions. Thus, we are able to establish strong evidence of the quantum chaotic nature of unorientable topological gravity.

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Unorientable topological gravity and orthogonal random matrix universality

Weber,

Tall,

Haneder

et al. 2024

J. High Energ. Phys.

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Firewalls at exponentially late times

Blommaert,

Chen,

Nomura

2024

J. High Energ. Phys.

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We consider a version of the typical state firewall setup recently reintroduced by Stanford and Yang, who found that wormholes may create firewalls. We examine a late-time scaling limit in JT gravity in which one can resum the expansion in the number of wormholes, and we use this to study the exact distribution of interior slices at times exponential in the entropy. We consider a thermofield double with and without early perturbations on a boundary. These perturbations can appear on interior slices as dangerous high energy shockwaves. For exponentially late times, wormholes tend to teleport the particles created by perturbations and render the interior more dangerous. In states with many perturbations separated by large times, the probability of a safe interior is exponentially small, even though these would be safe without wormholes. With perturbation, even in the safest state we conceive, the odds of encountering a shock are fifty-fifty. One interpretation of the phenomenon is that wormholes can change time-ordered contours into effective out-of-time-ordered folds, making shockwaves appear in unexpected places.

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Asymptotics of Weil-Petersson volumes and two-dimensional quantum gravities

Griguolo,

Papalini,

Russo

et al. 2024

SciPost Phys.

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We propose a refined expression for the large genus asymptotics of the Weil-Petersson volumes of the moduli space of super-Riemann surfaces with an arbitrary number of boundaries. Our formula leverages the connection between JT supergravity and its matrix model definition, utilizing some basic tools of resurgence theory. The final result holds for arbitrary boundary lengths and preserves the polynomial structure of the super-volumes. As a byproduct we also obtain a prediction for the large genus asymptotics of generalized \ThetaΘ-class intersection numbers. We extend our proposal to the case of the quantum volumes relevant for the Virasoro minimal string/Liouville gravity. Performing the classical limit on the quantum volumes, we recover a formula for the ordinary Weil-Petersson building blocks of JT gravity.

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The resurgence of the plateau in supersymmetric $$ \mathcal{N} $$ = 1 Jackiw-Teitelboim gravity

Cited by 3 publications

References 72 publications

Unorientable topological gravity and orthogonal random matrix universality

Unorientable topological gravity and orthogonal random matrix universality

Firewalls at exponentially late times

Asymptotics of Weil-Petersson volumes and two-dimensional quantum gravities

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