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Quasi-open inflation

We show that a large class of two-field models of single-bubble open inflation do not lead to infinite open universes, as it was previously thought, but to an ensemble of very large but finite inflating `islands'. The reason is that the quantum tunneling responsible for the nucleation of the bu...

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Detalles Bibliográficos
Autores principales: García-Bellido, J, Garriga, J, Montes, X
Lenguaje:eng
Publicado: 1997
Materias:
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.57.4669
http://cds.cern.ch/record/337613
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author García-Bellido, J
Garriga, J
Montes, X
author_facet García-Bellido, J
Garriga, J
Montes, X
author_sort García-Bellido, J
collection CERN
description We show that a large class of two-field models of single-bubble open inflation do not lead to infinite open universes, as it was previously thought, but to an ensemble of very large but finite inflating `islands'. The reason is that the quantum tunneling responsible for the nucleation of the bubble does not occur simultaneously along both field directions and equal-time hypersurfaces in the open universe are not synchronized with equal-density or fixed-field hypersurfaces. The most probable tunneling trajectory corresponds to a zero value of the inflaton field; large values, necessary for the second period of inflation inside the bubble, only arise as localized fluctuations. The interior of each nucleated bubble will contain an infinite number of such inflating regions of comoving size of order $\gamma^{-1}$, where $\gamma$ depends on the parameters of the model. Each one of these islands will be a quasi-open universe. Since the volume of the hyperboloid is infinite, inflating islands with all possible values of the field at their center will be realized inside of a single bubble. We may happen to live in one of those patches of comoving size $d\lesssim \gamma^{-1}$, where the universe appears to be open. In particular, we consider the ``supernatural'' model proposed by Linde and Mezhlumian. There, an approximate U(1) symmetry is broken by a tunneling field in a first order phase transition, and slow-roll inflation inside the nucleated bubble is driven by the pseudo-Goldstone field. We find that the excitations of the pseudo-Goldstone produced by the nucleation and subsequent expansion of the bubble place severe constraints on this model. We also discuss the coupled and uncoupled two-field models.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1997
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spelling cern-3376132019-09-30T06:29:59Zdoi:10.1103/PhysRevD.57.4669http://cds.cern.ch/record/337613engGarcía-Bellido, JGarriga, JMontes, XQuasi-open inflationParticle Physics - PhenomenologyWe show that a large class of two-field models of single-bubble open inflation do not lead to infinite open universes, as it was previously thought, but to an ensemble of very large but finite inflating `islands'. The reason is that the quantum tunneling responsible for the nucleation of the bubble does not occur simultaneously along both field directions and equal-time hypersurfaces in the open universe are not synchronized with equal-density or fixed-field hypersurfaces. The most probable tunneling trajectory corresponds to a zero value of the inflaton field; large values, necessary for the second period of inflation inside the bubble, only arise as localized fluctuations. The interior of each nucleated bubble will contain an infinite number of such inflating regions of comoving size of order $\gamma^{-1}$, where $\gamma$ depends on the parameters of the model. Each one of these islands will be a quasi-open universe. Since the volume of the hyperboloid is infinite, inflating islands with all possible values of the field at their center will be realized inside of a single bubble. We may happen to live in one of those patches of comoving size $d\lesssim \gamma^{-1}$, where the universe appears to be open. In particular, we consider the ``supernatural'' model proposed by Linde and Mezhlumian. There, an approximate U(1) symmetry is broken by a tunneling field in a first order phase transition, and slow-roll inflation inside the nucleated bubble is driven by the pseudo-Goldstone field. We find that the excitations of the pseudo-Goldstone produced by the nucleation and subsequent expansion of the bubble place severe constraints on this model. We also discuss the coupled and uncoupled two-field models.hep-ph/9711214CERN-TH-97-296oai:cds.cern.ch:3376131997-11-04
spellingShingle Particle Physics - Phenomenology
García-Bellido, J
Garriga, J
Montes, X
Quasi-open inflation
title Quasi-open inflation
title_full Quasi-open inflation
title_fullStr Quasi-open inflation
title_full_unstemmed Quasi-open inflation
title_short Quasi-open inflation
title_sort quasi-open inflation
topic Particle Physics - Phenomenology
url https://dx.doi.org/10.1103/PhysRevD.57.4669
http://cds.cern.ch/record/337613
work_keys_str_mv AT garciabellidoj quasiopeninflation
AT garrigaj quasiopeninflation
AT montesx quasiopeninflation