Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters

Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters

We analyze the partition function of three-dimensional quantum gravity on the twisted solid torus and the ensuing dual field theory. The setting is that of a non-perturbative model of three-dimensional quantum gravity, the Ponzano–Regge model, which is here reviewed in a self-contained manner and th...

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Main Authors: Bianca Dittrich, Christophe Goeller, Etera R. Livine, Aldo Riello
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Nuclear Physics B
Online Access:http://www.sciencedirect.com/science/article/pii/S0550321318301676
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spelling doaj-4d07abf8306b4ee09f8d22f1041624ac2020-11-25T00:35:08ZengElsevierNuclear Physics B0550-32132019-01-01938878934Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 charactersBianca Dittrich0Christophe Goeller1Etera R. Livine2Aldo Riello3Perimeter Institute for Theoretical Physics, 31 Caroline St North, Waterloo ON, N2L 2Y5, CanadaLaboratoire de Physique, ENS Lyon, CNRS-UMR 5672, 46 allée d'Italie, Lyon 69007, France; Perimeter Institute for Theoretical Physics, 31 Caroline St North, Waterloo ON, N2L 2Y5, CanadaLaboratoire de Physique, ENS Lyon, CNRS-UMR 5672, 46 allée d'Italie, Lyon 69007, France; Perimeter Institute for Theoretical Physics, 31 Caroline St North, Waterloo ON, N2L 2Y5, CanadaPerimeter Institute for Theoretical Physics, 31 Caroline St North, Waterloo ON, N2L 2Y5, Canada; Corresponding author.We analyze the partition function of three-dimensional quantum gravity on the twisted solid torus and the ensuing dual field theory. The setting is that of a non-perturbative model of three-dimensional quantum gravity, the Ponzano–Regge model, which is here reviewed in a self-contained manner and then used to compute quasi-local amplitudes for its boundary states. In this second paper of the series, we choose a particular class of boundary spin network states which impose Gibbons–Hawking–York boundary conditions to the partition function. The peculiarity of these states is to encode a two-dimensional quantum geometry peaked around a classical quadrangulation of the finite toroidal boundary. Thanks to the topological properties of three-dimensional gravity, the theory easily projects onto the boundary while crucially still keeping track of the topological properties of the bulk. This produces, at the non-perturbative level, a specific non-linear sigma-model on the boundary, akin to a Wess–Zumino–Novikov–Witten model, whose classical equations of motion can be used to reconstruct different bulk geometries: the expected classical one is accompanied by other “quantum” solutions. The classical regime of the sigma-model becomes reliable in the limit of large boundary spins, which coincides with the semi-classical limit of the boundary geometry. In a 1-loop approximation around the solutions to the classical equations of motion, we recover (with corrections due to the non-classical bulk geometries) results obtained in the past via perturbative quantum General Relativity and through the study of characters of the BMS3 group. The exposition is meant to be completely self-contained.http://www.sciencedirect.com/science/article/pii/S0550321318301676
collection DOAJ
language English
format Article
sources DOAJ
author Bianca Dittrich
Christophe Goeller
Etera R. Livine
Aldo Riello
spellingShingle Bianca Dittrich
Christophe Goeller
Etera R. Livine
Aldo Riello
Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
Nuclear Physics B
author_facet Bianca Dittrich
Christophe Goeller
Etera R. Livine
Aldo Riello
author_sort Bianca Dittrich
title Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
title_short Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
title_full Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
title_fullStr Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
title_full_unstemmed Quasi-local holographic dualities in non-perturbative 3d quantum gravity II – From coherent quantum boundaries to BMS3 characters
title_sort quasi-local holographic dualities in non-perturbative 3d quantum gravity ii – from coherent quantum boundaries to bms3 characters
publisher Elsevier
series Nuclear Physics B
issn 0550-3213
publishDate 2019-01-01
description We analyze the partition function of three-dimensional quantum gravity on the twisted solid torus and the ensuing dual field theory. The setting is that of a non-perturbative model of three-dimensional quantum gravity, the Ponzano–Regge model, which is here reviewed in a self-contained manner and then used to compute quasi-local amplitudes for its boundary states. In this second paper of the series, we choose a particular class of boundary spin network states which impose Gibbons–Hawking–York boundary conditions to the partition function. The peculiarity of these states is to encode a two-dimensional quantum geometry peaked around a classical quadrangulation of the finite toroidal boundary. Thanks to the topological properties of three-dimensional gravity, the theory easily projects onto the boundary while crucially still keeping track of the topological properties of the bulk. This produces, at the non-perturbative level, a specific non-linear sigma-model on the boundary, akin to a Wess–Zumino–Novikov–Witten model, whose classical equations of motion can be used to reconstruct different bulk geometries: the expected classical one is accompanied by other “quantum” solutions. The classical regime of the sigma-model becomes reliable in the limit of large boundary spins, which coincides with the semi-classical limit of the boundary geometry. In a 1-loop approximation around the solutions to the classical equations of motion, we recover (with corrections due to the non-classical bulk geometries) results obtained in the past via perturbative quantum General Relativity and through the study of characters of the BMS3 group. The exposition is meant to be completely self-contained.
url http://www.sciencedirect.com/science/article/pii/S0550321318301676
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