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Autori principali: Carrasco, Rafael, Coudarchet, Thibaut, Marchesano, Fernando, Prieto, David
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2309.00043
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author Carrasco, Rafael
Coudarchet, Thibaut
Marchesano, Fernando
Prieto, David
author_facet Carrasco, Rafael
Coudarchet, Thibaut
Marchesano, Fernando
Prieto, David
contents Massive type IIA flux compactifications of the form AdS$_4 \times X_6$, where $X_6$ admits a Calabi-Yau metric and O6-planes wrapping three-cycles, display families of vacua with parametric scale separation between the compactification scale and the AdS$_4$ radius, generated by an overall rescaling of internal four-form fluxes. For toroidal orbifolds one can perform two T-dualities and map this background to an orientifold of massless type IIA compactified on an SU(3)-structure manifold with fluxes. Via a 4d EFT analysis, we generalise this last construction and embed it into new branches of supersymmetric and non-supersymmetric vacua with similar features. We apply our results to propose new infinite families of vacua based on elliptic fibrations with metric fluxes. Parametric scale separation is achieved by an asymmetric flux rescaling which, however, in general is not a simple symmetry of the 4d equations of motion. At this level of approximation the vacua are stable but, unlike in the Calabi-Yau case, they display a non-universal mass spectrum of light fields.
format Preprint
id arxiv_https___arxiv_org_abs_2309_00043
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle New families of scale separated vacua
Carrasco, Rafael
Coudarchet, Thibaut
Marchesano, Fernando
Prieto, David
High Energy Physics - Theory
Massive type IIA flux compactifications of the form AdS$_4 \times X_6$, where $X_6$ admits a Calabi-Yau metric and O6-planes wrapping three-cycles, display families of vacua with parametric scale separation between the compactification scale and the AdS$_4$ radius, generated by an overall rescaling of internal four-form fluxes. For toroidal orbifolds one can perform two T-dualities and map this background to an orientifold of massless type IIA compactified on an SU(3)-structure manifold with fluxes. Via a 4d EFT analysis, we generalise this last construction and embed it into new branches of supersymmetric and non-supersymmetric vacua with similar features. We apply our results to propose new infinite families of vacua based on elliptic fibrations with metric fluxes. Parametric scale separation is achieved by an asymmetric flux rescaling which, however, in general is not a simple symmetry of the 4d equations of motion. At this level of approximation the vacua are stable but, unlike in the Calabi-Yau case, they display a non-universal mass spectrum of light fields.
title New families of scale separated vacua
topic High Energy Physics - Theory
url https://arxiv.org/abs/2309.00043