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Autori principali: Josse, Gregoire, Merenda, Francesco
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2310.15272
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author Josse, Gregoire
Merenda, Francesco
author_facet Josse, Gregoire
Merenda, Francesco
contents In this letter we present a scan for new vacua within consistent truncations of eleven/ten-dimensional supergravity down to five dimensions that preserve $N = 2$ supersymmetry, after their complete classification in arXiv:2112.03931. We first make explicit the link between the equations of exceptional Sasaki-Einstein backgrounds in arXiv:1602.02158 and the standard BPS equations for $5d$ $N = 2$ of arXiv:1601.00482. This derivation allows us to expedite a scan for vacua preserving $N = 2$ supersymmetry within the framework used for the classification presented in arXiv:2112.03931.
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institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Vacua scan of $5d$, $N=2$ consistent truncations
Josse, Gregoire
Merenda, Francesco
High Energy Physics - Theory
In this letter we present a scan for new vacua within consistent truncations of eleven/ten-dimensional supergravity down to five dimensions that preserve $N = 2$ supersymmetry, after their complete classification in arXiv:2112.03931. We first make explicit the link between the equations of exceptional Sasaki-Einstein backgrounds in arXiv:1602.02158 and the standard BPS equations for $5d$ $N = 2$ of arXiv:1601.00482. This derivation allows us to expedite a scan for vacua preserving $N = 2$ supersymmetry within the framework used for the classification presented in arXiv:2112.03931.
title Vacua scan of $5d$, $N=2$ consistent truncations
topic High Energy Physics - Theory
url https://arxiv.org/abs/2310.15272