CFT sewing as the dual of AdS cut-and-paste

Marolf, Donald

doi:10.1007/jhep02(2020)152

Cited by 19 publications

(15 citation statements)

References 46 publications

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“…There have also been holographic proposals for other measures of bipartite correlation such as entanglement negativity, odd entropy and entanglement wedge mutual information [25,[45][46][47][48][49]. Similarly, multipartite versions of the reflected entropy and entanglement of purification have also been proposed previously [50][51][52]. Although we have focused on the reflected entropy in this paper, the generalization essentially can be understood as applying the usual holographic formula after including the island in the entanglement wedge.…”

Section: A Generalizationsmentioning

confidence: 99%

Including contributions from entanglement islands to the reflected entropy

2020

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Recent work has demonstrated the need to include contributions from entanglement islands when computing the entanglement entropy in quantum field theory states coupled to regions of semiclassical gravity. We propose a new formula for the reflected entropy that includes additional contributions from such islands. We derive this formula from the gravitational path integral by finding additional saddles that include generalized replica wormholes. We also demonstrate that our covariant formula satisfies all the inequalities required of the reflected entropy. We use this formula in various examples that demonstrate its relevance in illustrating the structure of multipartite entanglement that are invisible to the entropies.

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Section: A Generalizationsmentioning

confidence: 99%

Including contributions from entanglement islands to the reflected entropy

2020

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“…We argued that the local unitary that acts on |Ψ and creates the vacuum state ω is the cocycle u Ω|Ψ (t) in the large t limit. Ideas similar to sewing states of quantum field theory have appeared in various context, recently [21,22]. It would be interesting to explore the connection between our algebraic sewing prescription and sewing Euclidean path-integrals discussed in the literature.…”

Section: Discussionmentioning

confidence: 96%

Modular zero modes and sewing the states of QFT

Lashkari

2021

J. High Energ. Phys.

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We point out an important difference between continuum relativistic quantum field theory (QFT) and lattice models with dramatic consequences for the theory of multi-partite entanglement. On a lattice given a collection of density matrices ρ(1), ρ(2), ⋯, ρ(n) there is no guarantee that there exists an n-partite pure state |Ω〉12⋯n that reduces to these marginals. The state |Ω〉12⋯n exists only if the eigenvalues of the density matrices ρ(i) satisfy certain polygon inequalities. We show that in QFT, as opposed to lattice systems, splitting the space into n non-overlapping regions any collection of local states ω(1), ω(2), ⋯ ω(n) come from the restriction of a global pure state. The reason is that rotating any local state ω(i) by unitary Ui localized in the ith region we come arbitrarily close to any other local state ψ(i). We construct explicit examples of such local unitaries using the cocycle.

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“…Following [17] we do not view this as an issue for our construction. This gluing procedure was further formalized in [20] where it was applied to entanglement wedges glued across a common RT surface. In higher dimensions one must be careful that the choice of boundary regions gives a well defined connected entanglement wedge on which our procedure can be performed.…”

Section: Covariant and Higher Dimensionsmentioning

confidence: 99%

Multipartite entanglement and topology in holography

Harper

2021

J. High Energ. Phys.

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Starting from the entanglement wedge of a multipartite mixed state we describe a purification procedure which involves the gluing of several copies. The resulting geometry has non-trivial topology and a single oriented boundary for each original boundary region. In the purified geometry the original multipartite entanglement wedge cross section is mapped to a minimal surface of a particular non-trivial homology class. In contrast, each original bipartite entanglement wedge cross section is mapped to the minimal wormhole throat around each boundary. Using the bit thread formalism we show how maximal flows for the bipartite and multipartite entanglement wedge cross section can be glued together to form maximal multiflows in the purified geometry. The defining feature differentiating the flows is given by the existence of threads which cross between different copies of the original entanglement wedge. Together these demonstrate a possible connection between multipartite entanglement and the topology of holographic spacetimes.

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CFT sewing as the dual of AdS cut-and-paste

Cited by 19 publications

References 46 publications

Including contributions from entanglement islands to the reflected entropy

Including contributions from entanglement islands to the reflected entropy

Modular zero modes and sewing the states of QFT

Multipartite entanglement and topology in holography

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