Henry Maxfield scite author profile

Bulk quantum fields are often said to contribute to the generalized entropy A 4G N`S bulk only at Op1q. Nonetheless, in the context of evaporating black holes, Op1{G N q gradients in S bulk can arise due to large boosts, introducing a quantum extremal surface far from any classical extremal surface. We examine the effect of such bulk quantum effects on quantum extremal surfaces (QESs) and the resulting entanglement wedge in a simple two-boundary 2d bulk system defined by Jackiw-Teitelboim gravity coupled to a 1+1 CFT. Turning on a coupling between one boundary and a further external auxiliary system which functions as a heat sink allows a two-sided otherwise-eternal black hole to evaporate on one side. We find the generalized entropy of the QES to behave as expected from general considerations of unitarity, and in particular that ingoing information disappears from the entanglement wedge after a scambling time β 2π log ∆S`Op1q in accord with expectations for holographic implementations of the Hayden-Preskill protocol. We also find an interesting QES phase transition at what one might call the Page time for our process.

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Transcending the ensemble: baby universes, spacetime wormholes, and the order and disorder of black hole information

Marolf

Maxfield

2020

J. High Energ. Phys.

332

761

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In the 1980's, work by Coleman and by Giddings and Strominger linked the physics of spacetime wormholes to 'baby universes' and an ensemble of theories. We revisit such ideas, using features associated with a negative cosmological constant and asymptotically AdS boundaries to strengthen the results, introduce a change in perspective, and connect with recent replica wormhole discussions of the Page curve. A key new feature is an emphasis on the role of null states. We explore this structure in detail in simple topological models of the bulk that allow us to compute the full spectrum of associated boundary theories. The dimension of the asymptotically AdS Hilbert space turns out to become a random variable Z, whose value can be less than the naive number k of independent states in the theory. For k > Z, consistency arises from an exact degeneracy in the inner product defined by the gravitational path integral, so that many a priori independent states differ only by a null state. We argue that a similar property must hold in any consistent gravitational path integral. We also comment on other aspects of extrapolations to more complicated models, and on possible implications for the black hole information problem in the individual members of the above ensemble.

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The path integral of 3D gravity near extremality; or, JT gravity with defects as a matrix integral

Maxfield

Turiaci

2021

J. High Energ. Phys.

191

304

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We propose that a class of new topologies, for which there is no classical solution, should be included in the path integral of three-dimensional pure gravity, and that their inclusion solves pathological negativities in the spectrum, replacing them with a nonperturbative shift of the BTZ extremality bound. We argue that a two dimensional calculation using a dimensionally reduced theory captures the leading effects in the near extremal limit. To make this argument, we study a closely related two-dimensional theory of Jackiw-Teitelboim gravity with dynamical defects. We show that this theory is equivalent to a matrix integral.

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Holographic entanglement plateaux

Hubeny¹,

Maxfield²,

Rangamani³

et al. 2013

J. High Energ. Phys.

125

207

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We consider the entanglement entropy for holographic field theories in finite volume. We show that the Araki-Lieb inequality is saturated for large enough subregions, implying that the thermal entropy can be recovered from the knowledge of the region and its complement. We observe that this actually is forced upon us in holographic settings due to non-trivial features of the causal wedges associated with a given boundary region. In the process, we present an infinite set of extremal surfaces in Schwarzschild-AdS geometry anchored on a given entangling surface. We also offer some speculations regarding the homology constraint required for computing holographic entanglement entropy.Comment: 27 pages + appendices. 12 pdf figures. 5 avi animations + 7 additional figures as ancillary files. v2: minor changes, fixed links to ancillary files. v3: minor clarifications and improvements to the discussion. published version (modulo additional clarifying footnotes

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Quantum Regge trajectories and the Virasoro analytic bootstrap

Collier

Gobeil

Maxfield

et al. 2019

J. High Energ. Phys.

201

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Every conformal field theory (CFT) above two dimensions contains an infinite set of Regge trajectories of local operators which, at large spin, asymptote to "double-twist" composites with vanishing anomalous dimension. In two dimensions, due to the existence of local conformal symmetry, this and other central results of the conformal bootstrap do not apply. We incorporate exact stress tensor dynamics into the CFT 2 analytic bootstrap, and extract several implications for AdS 3 quantum gravity. Our main tool is the Virasoro fusion kernel, which we newly analyze and interpret in the bootstrap context. The contribution to double-twist data from the Virasoro vacuum module defines a "Virasoro Mean Field Theory" (VMFT); its spectrum includes a finite number of discrete Regge trajectories, whose dimensions obey a simple formula exact in the central charge c and external operator dimensions. We then show that VMFT provides a baseline for large spin universality in two dimensions: in every unitary compact CFT 2 with c > 1 and a twist gap above the vacuum, the double-twist data approaches that of VMFT at large spin . Corrections to the large spin spectrum from individual non-vacuum primaries are exponentially small in √ for fixed c. We analyze our results in various large c limits. Further applications include a derivation of the late-time behavior of Virasoro blocks at generic c; a refined understanding and new derivation of heavy-light blocks; and the determination of the cross-channel limit of generic Virasoro blocks. We deduce non-perturbative results about the bound state spectrum and dynamics of quantum gravity in AdS 3 .

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Henry Maxfield

The entropy of bulk quantum fields and the entanglement wedge of an evaporating black hole

Transcending the ensemble: baby universes, spacetime wormholes, and the order and disorder of black hole information

The path integral of 3D gravity near extremality; or, JT gravity with defects as a matrix integral

Holographic entanglement plateaux

Quantum Regge trajectories and the Virasoro analytic bootstrap

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