2018
DOI: 10.1007/jhep01(2018)081
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Entropy, extremality, euclidean variations, and the equations of motion

Abstract: Abstract:We study the Euclidean gravitational path integral computing the Rényi entropy and analyze its behavior under small variations. We argue that, in Einstein gravity, the extremality condition can be understood from the variational principle at the level of the action, without having to solve explicitly the equations of motion. This set-up is then generalized to arbitrary theories of gravity, where we show that the respective entanglement entropy functional needs to be extremized. We also extend this res… Show more

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Cited by 175 publications
(276 citation statements)
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References 56 publications
(167 reference statements)
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“…More generally, it was proposed in [18] (and proven in [17]) that, at general orders in 1/N , one should consider the entropy outside the quantum extremal surface, obtained by extremizing the total generalized entropy S gen = A/4G N +S bulk . When calculating the O(1) piece of the entropy, these two prescriptions agree on the value of the entropy but [16,18] argued that the location of the quantum extremal surface is also physically important, because it provides a natural boundary for how much of the bulk can be reconstructed from the CFT state on a single boundary.…”
Section: Jhep12(2017)151mentioning
confidence: 99%
“…More generally, it was proposed in [18] (and proven in [17]) that, at general orders in 1/N , one should consider the entropy outside the quantum extremal surface, obtained by extremizing the total generalized entropy S gen = A/4G N +S bulk . When calculating the O(1) piece of the entropy, these two prescriptions agree on the value of the entropy but [16,18] argued that the location of the quantum extremal surface is also physically important, because it provides a natural boundary for how much of the bulk can be reconstructed from the CFT state on a single boundary.…”
Section: Jhep12(2017)151mentioning
confidence: 99%
“…One should thus understand [19] to rely on having a bulk effective action valid at locally-measured energies below some bulk cutoff scale Λ. In particular, the operator L R is determined by applying the Lewkowycz-Maldacena procedure [29] to this effective action and so also depends on Λ; see [25][26][27][28] for treatments of higher derivative corrections. We will discuss this procedure in more detail in section 3, but for now we note that, although dynamical fluctuations below the cutoff Λ contribute to the expectation value of L R in (2.1), the procedure determining the form of L R is entirely classical and makes no reference to these fluctuations.…”
Section: Review Of Holographic Quantum Codesmentioning
confidence: 99%
“…We expect the divergence to be in part determined by τ a , though it must be contracted with some one index object that contains information about the boundary region A. A natural candidate is the trace of the extrinsic curvature of ∂A, 26) where the i index runs over the boundary indices, the b index runs over the 2 vectors orthogonal to our boundary subregion (and contained in the boundary), and n is the normal to ∂A that points outwardly away from A. The only nonzero component is…”
Section: Jhep02(2018)049mentioning
confidence: 99%
“…This would presumably involve replacing the area of each leaf with the generalized entropy as in [9,23,25,26]. However, it is unclear just how the bulk entanglement term should be defined for bulk gravitons.…”
Section: Jhep02(2018)049mentioning
confidence: 99%
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