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An embedding formalism for CFTs in general states on curved backgrounds

An embedding formalism for CFTs in general states on curved backgrounds
An embedding formalism for CFTs in general states on curved backgrounds
We present a generalisation of the embedding space formalism to conformal field theories (CFTs) on non-trivial states and curved backgrounds, based on the ambient metric of Fefferman and Graham. The ambient metric is a Lorentzian Ricci-flat metric in $d+2$ dimensions and replaces the Minkowski metric of the embedding space. It is canonically associated with a $d$-dimensional conformal manifold, which is the physical spacetime where the CFT${}_d$ lives. We propose a construction of CFT${}_d$ correlators in non-trivial states and on curved backgrounds using appropriate geometric invariants of the ambient space as building blocks. As a test of the formalism we apply it to thermal 2-point functions and find exact agreement with a holographic computation and expectations based on thermal operator product expansions (OPEs).
hep-th, gr-qc, math.DG
2331-8422
Parisini, Enrico
b1e0f8e0-9464-4ff5-bbc5-d37eeebf4a2d
Skenderis, Kostas
09f32871-ffb1-4f4a-83bc-df05f4d17a09
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
Parisini, Enrico
b1e0f8e0-9464-4ff5-bbc5-d37eeebf4a2d
Skenderis, Kostas
09f32871-ffb1-4f4a-83bc-df05f4d17a09
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9

[Unknown type: UNSPECIFIED]

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Abstract

We present a generalisation of the embedding space formalism to conformal field theories (CFTs) on non-trivial states and curved backgrounds, based on the ambient metric of Fefferman and Graham. The ambient metric is a Lorentzian Ricci-flat metric in $d+2$ dimensions and replaces the Minkowski metric of the embedding space. It is canonically associated with a $d$-dimensional conformal manifold, which is the physical spacetime where the CFT${}_d$ lives. We propose a construction of CFT${}_d$ correlators in non-trivial states and on curved backgrounds using appropriate geometric invariants of the ambient space as building blocks. As a test of the formalism we apply it to thermal 2-point functions and find exact agreement with a holographic computation and expectations based on thermal operator product expansions (OPEs).

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2209.09250v1 - Author's Original
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Accepted/In Press date: 19 September 2022
Published date: 19 September 2022
Additional Information: 6 pages, 1 figure
Keywords: hep-th, gr-qc, math.DG
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Identifiers

Local EPrints ID: 471760
URI: http://eprints.soton.ac.uk/id/eprint/471760
ISSN: 2331-8422
PURE UUID: b3cfd8d6-3f9d-4de8-bcb3-0393d707f6ea
ORCID for Enrico Parisini: ORCID iD orcid.org/0000-0001-9908-6315
ORCID for Kostas Skenderis: ORCID iD orcid.org/0000-0003-4509-5472
ORCID for Benjamin Withers: ORCID iD orcid.org/0000-0001-8490-9948

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Date deposited: 17 Nov 2022 17:47
Last modified: 17 Mar 2024 03:57

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Contributors

Author: Enrico Parisini ORCID iD
Author: Kostas Skenderis ORCID iD
Author: Benjamin Withers ORCID iD

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