Fab Four: When John and George Play Gravitation and Cosmology

Fab Four: When John and George Play Gravitation and Cosmology

Scalar-tensor theories of gravitation attract again a great interest since the discovery of the Chameleon mechanism and of the Galileon models. The former allows reconciling the presence of a scalar field with the constraints from Solar System experiments. The latter leads to inflationary models tha...

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Main Authors: J.-P. Bruneton, M. Rinaldi, A. Kanfon, A. Hees, S. Schlögel, A. Füzfa
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:Advances in Astronomy
Online Access:http://dx.doi.org/10.1155/2012/430694
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spelling doaj-61407de9d98844549e5a07d093cffb402020-11-25T00:34:31ZengHindawi LimitedAdvances in Astronomy1687-79691687-79772012-01-01201210.1155/2012/430694430694Fab Four: When John and George Play Gravitation and CosmologyJ.-P. Bruneton0M. Rinaldi1A. Kanfon2A. Hees3S. Schlögel4A. Füzfa5Namur Center for Complex Systems (naXys), University of Namur, 5000 Namur, BelgiumNamur Center for Complex Systems (naXys), University of Namur, 5000 Namur, BelgiumFaculté des Sciences et Techniques, Université d'Abomey-Calavi, BP 526 Cotonou, BeninNamur Center for Complex Systems (naXys), University of Namur, 5000 Namur, BelgiumNamur Center for Complex Systems (naXys), University of Namur, 5000 Namur, BelgiumNamur Center for Complex Systems (naXys), University of Namur, 5000 Namur, BelgiumScalar-tensor theories of gravitation attract again a great interest since the discovery of the Chameleon mechanism and of the Galileon models. The former allows reconciling the presence of a scalar field with the constraints from Solar System experiments. The latter leads to inflationary models that do not need ad hoc potentials. Further generalizations lead to a tensor-scalar theory, dubbed the “Fab Four,” with only first and second order derivatives of the fields in the equations of motion that self-tune to a vanishing cosmological constant. This model needs to be confronted with experimental data in order to constrain its large parameter space. We present some results regarding a subset of this theory named “John,” which corresponds to a nonminimal derivative coupling between the scalar field and the Einstein tensor in the action. We show that this coupling gives rise to an inflationary model with very unnatural initial conditions. Thus, we include the term named “George,” namely, a nonminimal, but nonderivative, coupling between the scalar field and Ricci scalar. We find a more natural inflationary model, and, by performing a post-Newtonian analysis, we derive the set of equations that constrain the parameter space with data from experiments in the Solar System.http://dx.doi.org/10.1155/2012/430694
collection DOAJ
language English
format Article
sources DOAJ
author J.-P. Bruneton
M. Rinaldi
A. Kanfon
A. Hees
S. Schlögel
A. Füzfa
spellingShingle J.-P. Bruneton
M. Rinaldi
A. Kanfon
A. Hees
S. Schlögel
A. Füzfa
Fab Four: When John and George Play Gravitation and Cosmology
Advances in Astronomy
author_facet J.-P. Bruneton
M. Rinaldi
A. Kanfon
A. Hees
S. Schlögel
A. Füzfa
author_sort J.-P. Bruneton
title Fab Four: When John and George Play Gravitation and Cosmology
title_short Fab Four: When John and George Play Gravitation and Cosmology
title_full Fab Four: When John and George Play Gravitation and Cosmology
title_fullStr Fab Four: When John and George Play Gravitation and Cosmology
title_full_unstemmed Fab Four: When John and George Play Gravitation and Cosmology
title_sort fab four: when john and george play gravitation and cosmology
publisher Hindawi Limited
series Advances in Astronomy
issn 1687-7969
1687-7977
publishDate 2012-01-01
description Scalar-tensor theories of gravitation attract again a great interest since the discovery of the Chameleon mechanism and of the Galileon models. The former allows reconciling the presence of a scalar field with the constraints from Solar System experiments. The latter leads to inflationary models that do not need ad hoc potentials. Further generalizations lead to a tensor-scalar theory, dubbed the “Fab Four,” with only first and second order derivatives of the fields in the equations of motion that self-tune to a vanishing cosmological constant. This model needs to be confronted with experimental data in order to constrain its large parameter space. We present some results regarding a subset of this theory named “John,” which corresponds to a nonminimal derivative coupling between the scalar field and the Einstein tensor in the action. We show that this coupling gives rise to an inflationary model with very unnatural initial conditions. Thus, we include the term named “George,” namely, a nonminimal, but nonderivative, coupling between the scalar field and Ricci scalar. We find a more natural inflationary model, and, by performing a post-Newtonian analysis, we derive the set of equations that constrain the parameter space with data from experiments in the Solar System.
url http://dx.doi.org/10.1155/2012/430694
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