The classical double copy in maximally symmetric spacetimes

The classical double copy in maximally symmetric spacetimes

Abstract The classical double copy procedure relates classical asymptotically-flat gravitational field solutions to Yang-Mills and scalar field solutions living in Minkowski space. In this paper we extend this correspondence to maximally symmetric curved spacetimes. We consider asymptotically (A)dS...

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Main Authors: Mariana Carrillo González, Riccardo Penco, Mark Trodden
Format: Article
Language:English
Published: SpringerOpen 2018-04-01
Series:Journal of High Energy Physics
Subjects:
Scattering Amplitudes
Black Holes
Gauge Symmetry
Online Access:http://link.springer.com/article/10.1007/JHEP04(2018)028
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spelling doaj-7653b8b42e1149388c9846458dd6c9ce2020-11-25T00:35:57ZengSpringerOpenJournal of High Energy Physics1029-84792018-04-012018412610.1007/JHEP04(2018)028The classical double copy in maximally symmetric spacetimesMariana Carrillo González0Riccardo Penco1Mark Trodden2Center for Particle Cosmology, Department of Physics and Astronomy, University of PennsylvaniaCenter for Particle Cosmology, Department of Physics and Astronomy, University of PennsylvaniaCenter for Particle Cosmology, Department of Physics and Astronomy, University of PennsylvaniaAbstract The classical double copy procedure relates classical asymptotically-flat gravitational field solutions to Yang-Mills and scalar field solutions living in Minkowski space. In this paper we extend this correspondence to maximally symmetric curved spacetimes. We consider asymptotically (A)dS spacetimes in Kerr-Schild form and construct the corresponding single and zeroth copies. In order to clarify the interpretation of these copies, we study several examples including (A)dS-Schwarzschild, (A)dS-Kerr, black strings, black branes, and waves, paying particular attention to the source terms. We find that the single and zeroth copies of stationary solutions satisfy different equations than those of wave solutions. We also consider how to obtain Einstein-Maxwell solutions using this procedure. Finally, we derive the classical single and zeroth copy of the BTZ black hole.http://link.springer.com/article/10.1007/JHEP04(2018)028Scattering AmplitudesBlack HolesGauge Symmetry
collection DOAJ
language English
format Article
sources DOAJ
author Mariana Carrillo González
Riccardo Penco
Mark Trodden
spellingShingle Mariana Carrillo González
Riccardo Penco
Mark Trodden
The classical double copy in maximally symmetric spacetimes
Journal of High Energy Physics
Scattering Amplitudes
Black Holes
Gauge Symmetry
author_facet Mariana Carrillo González
Riccardo Penco
Mark Trodden
author_sort Mariana Carrillo González
title The classical double copy in maximally symmetric spacetimes
title_short The classical double copy in maximally symmetric spacetimes
title_full The classical double copy in maximally symmetric spacetimes
title_fullStr The classical double copy in maximally symmetric spacetimes
title_full_unstemmed The classical double copy in maximally symmetric spacetimes
title_sort classical double copy in maximally symmetric spacetimes
publisher SpringerOpen
series Journal of High Energy Physics
issn 1029-8479
publishDate 2018-04-01
description Abstract The classical double copy procedure relates classical asymptotically-flat gravitational field solutions to Yang-Mills and scalar field solutions living in Minkowski space. In this paper we extend this correspondence to maximally symmetric curved spacetimes. We consider asymptotically (A)dS spacetimes in Kerr-Schild form and construct the corresponding single and zeroth copies. In order to clarify the interpretation of these copies, we study several examples including (A)dS-Schwarzschild, (A)dS-Kerr, black strings, black branes, and waves, paying particular attention to the source terms. We find that the single and zeroth copies of stationary solutions satisfy different equations than those of wave solutions. We also consider how to obtain Einstein-Maxwell solutions using this procedure. Finally, we derive the classical single and zeroth copy of the BTZ black hole.
topic Scattering Amplitudes
Black Holes
Gauge Symmetry
url http://link.springer.com/article/10.1007/JHEP04(2018)028
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