Entanglement entropy in internal spaces and Ryu-Takayanagi surfaces

Das, Sumit R.; Kaushal, Anurag; Mandal, Gautam; Kishore, Nanda, Kanhu; Hany, Radwan, Mohamed; Trivedi, Sandip P.

doi:10.1007/jhep04(2023)141

J. High Energ. Phys.

2023

DOI: 10.1007/jhep04(2023)141

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Entanglement entropy in internal spaces and Ryu-Takayanagi surfaces

Sumit R. Das

Anurag Kaushal

Gautam Mandal

et al.

Abstract: We study minimum area surfaces associated with a region, R, of an internal space. For example, for a warped product involving an asymptotically AdS space and an internal space K, the region R lies in K and the surface ends on ∂R. We find that the result of Graham and Karch can be avoided in the presence of warping, and such surfaces can sometimes exist for a general region R. When such a warped product geometry arises in the IR from a higher dimensional asymptotic AdS, we argue that the area of the surface can… Show more

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2024

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Cited by 2 publications

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Thermal Bekenstein-Hawking entropy from the worldsheet

Halder,

Jafferis

2024

J. High Energ. Phys.

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We define and compute the leading sphere diagram contribution to the entropy of the BTZ black hole supported by Kalb-Ramond flux in bosonic string theory. In a winding condensate description, integrating exactly over the constant mode for the radial direction of AdS3 reduces the problem to one of the correlation functions of winding operators in the free theory. The volume of the residual PSL(2,ℂ) gauge group of the sphere is canceled by the action of conformal transformations on the winding interaction insertions. We formulate a precise version of the replica trick in terms of (infinitesimally) non-integer winding condensates to produce the entropy of the BTZ black hole. The resulting entropy can be calculated from the one-point function of a non-local operator on the worldsheet.

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Thermal Bekenstein-Hawking entropy from the worldsheet

Halder,

Jafferis

2024

J. High Energ. Phys.

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Operators in the internal space and locality

Bohra,

Das,

Mandal

et al. 2024

J. High Energ. Phys.

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Realizations of the holographic correspondence in String/M theory typically involve spacetimes of the form AdS × Y where Y is some internal space which geometrizes an internal symmetry of the dual field theory, hereafter referred to as an “R symmetry”. It has been speculated that areas of Ryu-Takayanagi surfaces anchored on the boundary of a subregion of Y, and smeared over the base space of the dual field theory, quantify entanglement of internal degrees of freedom. A natural candidate for the corresponding operators are linear combinations of operators with definite R charge with coefficients given by the “spherical harmonics” of the internal space: this is natural when the product spaces appear as IR geometries of higher dimensional AdS spaces. We study clustering properties of such operators both for pure AdS × Y and for flow geometries, where AdS × Y arises in the IR from a different spacetime in the UV, for example higher dimensional AdS or asymptotically flat spacetime. We show, in complete generality, that the two point functions of such operators separated along the internal space obey clustering properties at scales sufficiently larger than the AdS scale. For non-compact Y, this provides a notion of approximate locality. When Y is compact, clustering happens only when the size of Y is parametrically larger than the AdS scale. This latter situation is realized in flow geometries where the product spaces arise in the IR from an asymptotically AdS geometry at UV, but not typically when they arise near black hole horizons in asymptotically flat spacetimes. We discuss the significance of this result for entanglement and comment on the role of color degrees of freedom.

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Entanglement entropy in internal spaces and Ryu-Takayanagi surfaces

Cited by 2 publications

References 37 publications

Thermal Bekenstein-Hawking entropy from the worldsheet

Thermal Bekenstein-Hawking entropy from the worldsheet

Operators in the internal space and locality

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