Cosmological Results and Implications in Effective DGP

Cosmological Results and Implications in Effective DGP

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We study a simple extension of the decoupling limit of boundary effctive actions for the Dvali-Gabadadze-Porrati model, by covariantizing the π lagrangian and coupling to gravity in the usual way. This extension agrees with DGP to leading order in Mpl^−1 , and simplifies the cosmological analysis. I...

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Main Author: Chow, Lik-Neng Nathan
Language:en
Published: 2009
Subjects:
Modified Gravity
Effective DGP
IR Modification
Dark Energy
π Lagrangian
Physics
Online Access:http://hdl.handle.net/10012/4254
id ndltd-WATERLOO-oai-uwspace.uwaterloo.ca-10012-4254
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spelling ndltd-WATERLOO-oai-uwspace.uwaterloo.ca-10012-42542013-01-08T18:52:00ZChow, Lik-Neng Nathan2009-01-26T14:29:59Z2009-01-26T14:29:59Z2009-01-26T14:29:59Z2009http://hdl.handle.net/10012/4254We study a simple extension of the decoupling limit of boundary effctive actions for the Dvali-Gabadadze-Porrati model, by covariantizing the π lagrangian and coupling to gravity in the usual way. This extension agrees with DGP to leading order in Mpl^−1 , and simplifies the cosmological analysis. It is also shown to softly break the shift symmetry, while still being consistent with solar system observations. The generally covariant equations of motion for π and the metric are derived, then the cosmology is developed under the Cosmological Principle. Three analytic solutions are found and their stability is studied. Interesting DGP phenomenology is reproduced, and we consider one of the stable solutions. The cosmological analogue of the Vainshtein effect is reproduced and the effective equation of state, w_π, is shown to be bounded by −1 from above. This solution is additionally shown to be an attractor solution in an expanding universe. We evolve π numerically and reproduce these properties, and show that the universe will go through a contraction phase, due to this π field. We then place a constraint on r_c ≥ 10^29 cm, given recent WMAP5 data. This lower bound on r_c gives an upper bound on the anomalous perihelion precession of the moon ∼ 1 × 10^−13, 2 orders of magnitude below current experimental precision.enModified GravityEffective DGPIR ModificationDark Energyπ LagrangianCosmological Results and Implications in Effective DGPThesis or DissertationPhysics and AstronomyMaster of SciencePhysics
collection NDLTD
language en
sources NDLTD
topic Modified Gravity
Effective DGP
IR Modification
Dark Energy
π Lagrangian
Physics
spellingShingle Modified Gravity
Effective DGP
IR Modification
Dark Energy
π Lagrangian
Physics
Chow, Lik-Neng Nathan
Cosmological Results and Implications in Effective DGP
description We study a simple extension of the decoupling limit of boundary effctive actions for the Dvali-Gabadadze-Porrati model, by covariantizing the π lagrangian and coupling to gravity in the usual way. This extension agrees with DGP to leading order in Mpl^−1 , and simplifies the cosmological analysis. It is also shown to softly break the shift symmetry, while still being consistent with solar system observations. The generally covariant equations of motion for π and the metric are derived, then the cosmology is developed under the Cosmological Principle. Three analytic solutions are found and their stability is studied. Interesting DGP phenomenology is reproduced, and we consider one of the stable solutions. The cosmological analogue of the Vainshtein effect is reproduced and the effective equation of state, w_π, is shown to be bounded by −1 from above. This solution is additionally shown to be an attractor solution in an expanding universe. We evolve π numerically and reproduce these properties, and show that the universe will go through a contraction phase, due to this π field. We then place a constraint on r_c ≥ 10^29 cm, given recent WMAP5 data. This lower bound on r_c gives an upper bound on the anomalous perihelion precession of the moon ∼ 1 × 10^−13, 2 orders of magnitude below current experimental precision.
author Chow, Lik-Neng Nathan
author_facet Chow, Lik-Neng Nathan
author_sort Chow, Lik-Neng Nathan
title Cosmological Results and Implications in Effective DGP
title_short Cosmological Results and Implications in Effective DGP
title_full Cosmological Results and Implications in Effective DGP
title_fullStr Cosmological Results and Implications in Effective DGP
title_full_unstemmed Cosmological Results and Implications in Effective DGP
title_sort cosmological results and implications in effective dgp
publishDate 2009
url http://hdl.handle.net/10012/4254
work_keys_str_mv AT chowliknengnathan cosmologicalresultsandimplicationsineffectivedgp
_version_ 1716573277949788160

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