Wayne W. Weng scite author profile

A large class of two-dimensional dilaton-gravity theories in asymptotically AdS2 spacetimes are holographically dual to a matrix integral, interpreted as an ensemble average over Hamiltonians. Viewing these theories as Jackiw–Teitelboim gravity with a gas of defects, we extend this duality to a broader class of dilaton potentials compared to previous work by including conical defects with small deficit angles. In order to do this we show that these theories are equal to the large p limit of a natural deformation of the (2, p) minimal string theory.

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Replica wormholes and holographic entanglement negativity

Dong

McBride

Weng

2022

J. High Energ. Phys.

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Recent work has shown how to understand the Page curve of an evaporating black hole from replica wormholes. However, more detailed information about the structure of its quantum state is needed to fully understand the dynamics of black hole evaporation. Here we study entanglement negativity, an important measure of quantum entanglement in mixed states, in a couple of toy models of evaporating black holes. We find four phases dominated by different types of geometries: the disconnected, cyclically connected, anti-cyclically connected, and pairwise connected geometries. The last of these geometries are new replica wormholes that break the replica symmetry spontaneously. We also analyze the transitions between these four phases by summing more generic replica geometries using a Schwinger-Dyson equation. In particular, we find enhanced corrections to various negativity measures near the transition between the cyclic and pairwise phase.

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A Tale of Two Butterflies: An Exact Equivalence in Higher-Derivative Gravity

Dong¹,

Wang²,

Weng³

et al. 2022

Preprint

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We prove the equivalence of two holographic computations of the butterfly velocity in higher-derivative theories with Lagrangian built from arbitrary contractions of curvature tensors. The butterfly velocity characterizes the speed at which local perturbations grow in chaotic many-body systems and can be extracted from the outof-time-order correlator. This leads to a holographic computation in which the butterfly velocity is determined from a localized shockwave on the horizon of a dual black hole. A second holographic computation uses entanglement wedge reconstruction to define a notion of operator size and determines the butterfly velocity from certain extremal surfaces. By direct computation, we show that these two butterfly velocities match precisely in the aforementioned class of gravitational theories. We also present evidence showing that this equivalence holds in all gravitational theories. Along the way, we prove a number of general results on shockwave spacetimes.

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Orbit Averaging Coherent States: Holographic Three-Point Functions of AdS Giant Gravitons

Adolfo¹,

Weng²

2022

Preprint

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Orbit averaging coherent states: holographic three-point functions of AdS giant gravitons

Adolfo

Weng

2023

J. High Energ. Phys.

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We study correlation functions of two AdS giant gravitons in AdS5 × S5 and a BPS supergravity mode using holography. In the gauge theory these are described by BPS correlators of Schur polynomials of fully-symmetric representations and a single trace operator. We find full agreement between the semiclassical gravity and gauge theory computations at large N, for both diagonal and off-diagonal structure constants. Our analysis in $$ \mathcal{N} $$ N = 4 SYM provides a simpler derivation to the results in the literature, and it can be readily generalized to operators describing bound states of AdS giant gravitons as well as bubbling geometries.

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Wayne W. Weng

2D dilaton-gravity, deformations of the minimal string, and matrix models

Replica wormholes and holographic entanglement negativity

A Tale of Two Butterflies: An Exact Equivalence in Higher-Derivative Gravity

Orbit Averaging Coherent States: Holographic Three-Point Functions of AdS Giant Gravitons

Orbit averaging coherent states: holographic three-point functions of AdS giant gravitons

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