Entanglement, holography and causal diamonds
Entanglement, holography and causal diamonds
We argue that the degrees of freedom in a d-dimensional CFT can be re-organized in an insightful way by studying observables on the moduli space of causal diamonds (or equivalently, the space of pairs of timelike separated points). This 2d-dimensional space naturally captures some of the fundamental nonlocality and causal structure inherent in the entanglement of CFT states. For any primary CFT operator, we construct an observable on this space, which is defined by smearing the associated one-point function over causal diamonds. Known examples of such quantities are the entanglement entropy of vacuum excitations and its higher spin generalizations. We show that in holographic CFTs, these observables are given by suitably defined integrals of dual bulk fields over the corresponding Ryu-Takayanagi minimal surfaces. Furthermore, we explain connections to the operator product expansion and the first law of entanglement entropy from this unifying point of view. We demonstrate that for small perturbations of the vacuum, our observables obey linear two-derivative equations of motion on the space of causal diamonds. In two dimensions, the latter is given by a product of two copies of a two-dimensional de Sitter space. For a class of universal states, we show that the entanglement entropy and its spin-three generalization obey nonlinear equations of motion with local interactions on this moduli space, which can be identified with Liouville and Toda equations, respectively. This suggests the possibility of extending the definition of our new observables beyond the linear level more generally and in such a way that they give rise to new dynamically interacting theories on the moduli space of causal diamonds. Various challenges one has to face in order to implement this idea are discussed.
hep-th, gr-qc
Boer, Jan de
cda0a991-6116-4cee-881c-af07ac4c139c
Haehl, Felix M.
eb0d74fd-0d8b-4b1b-8686-79d43c2a3a5f
Heller, Michal P.
5b6c6d3e-4731-414d-8556-bd8604ce5377
Myers, Robert C.
2fafdbd1-8e40-4af3-8b69-d073b598a279
29 September 2016
Boer, Jan de
cda0a991-6116-4cee-881c-af07ac4c139c
Haehl, Felix M.
eb0d74fd-0d8b-4b1b-8686-79d43c2a3a5f
Heller, Michal P.
5b6c6d3e-4731-414d-8556-bd8604ce5377
Myers, Robert C.
2fafdbd1-8e40-4af3-8b69-d073b598a279
Boer, Jan de, Haehl, Felix M., Heller, Michal P. and Myers, Robert C.
(2016)
Entanglement, holography and causal diamonds.
JHEP, 2016 (8), [162].
(doi:10.1007/JHEP08(2016)162).
Abstract
We argue that the degrees of freedom in a d-dimensional CFT can be re-organized in an insightful way by studying observables on the moduli space of causal diamonds (or equivalently, the space of pairs of timelike separated points). This 2d-dimensional space naturally captures some of the fundamental nonlocality and causal structure inherent in the entanglement of CFT states. For any primary CFT operator, we construct an observable on this space, which is defined by smearing the associated one-point function over causal diamonds. Known examples of such quantities are the entanglement entropy of vacuum excitations and its higher spin generalizations. We show that in holographic CFTs, these observables are given by suitably defined integrals of dual bulk fields over the corresponding Ryu-Takayanagi minimal surfaces. Furthermore, we explain connections to the operator product expansion and the first law of entanglement entropy from this unifying point of view. We demonstrate that for small perturbations of the vacuum, our observables obey linear two-derivative equations of motion on the space of causal diamonds. In two dimensions, the latter is given by a product of two copies of a two-dimensional de Sitter space. For a class of universal states, we show that the entanglement entropy and its spin-three generalization obey nonlinear equations of motion with local interactions on this moduli space, which can be identified with Liouville and Toda equations, respectively. This suggests the possibility of extending the definition of our new observables beyond the linear level more generally and in such a way that they give rise to new dynamically interacting theories on the moduli space of causal diamonds. Various challenges one has to face in order to implement this idea are discussed.
More information
Accepted/In Press date: 14 August 2016
Published date: 29 September 2016
Additional Information:
84 pages, 12 figures; v2: expanded discussion on constraints in section 7, matches published version
Keywords:
hep-th, gr-qc
Identifiers
Local EPrints ID: 471225
URI: http://eprints.soton.ac.uk/id/eprint/471225
ISSN: 1126-6708
PURE UUID: a9a1c0f4-31c5-4510-a3bb-29eeecc9c80b
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Date deposited: 01 Nov 2022 17:32
Last modified: 17 Mar 2024 04:14
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Contributors
Author:
Jan de Boer
Author:
Felix M. Haehl
Author:
Michal P. Heller
Author:
Robert C. Myers
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