The Hubble flow of plateau inflation

Dries Coone; Diederik Roest; Vincent Vennin

doi:10.1088/1475-7516/2015/11/010

The Hubble flow of plateau inflation

Dries Coone, Diederik Roest, Vincent Vennin

Research output: Contribution to journal › Article › peer-review

Abstract

In the absence of CMB precision measurements, a Taylor expansion has often been invoked to parametrize the Hubble flow function during inflation. The standard "horizon flow" procedure implicitly relies on this assumption. However, the recent Planck results indicate a strong preference for plateau inflation, which suggests the use of Padé approximants instead. We propose a novel method that provides analytic solutions of the flow equations for a given parametrization of the Hubble function. This method is illustrated in the Taylor and Padé cases, for low order expansions. We then present the results of a full numerical treatment scanning larger order expansions, and compare these parametrizations in terms of convergence, prior dependence, predictivity and compatibility with the data. Finally, we highlight the implications for potential reconstruction methods.

Original language	English
Article number	010
Journal	Journal of Cosmology and Astroparticle Physics
Volume	2015
Issue number	11
DOIs	https://doi.org/10.1088/1475-7516/2015/11/010
Publication status	Published - 6 Nov 2015
Externally published	Yes

Keywords

ination
physics of the early universe

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10.1088/1475-7516/2015/11/010

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title = "The Hubble flow of plateau inflation",

abstract = "In the absence of CMB precision measurements, a Taylor expansion has often been invoked to parametrize the Hubble flow function during inflation. The standard {"}horizon flow{"} procedure implicitly relies on this assumption. However, the recent Planck results indicate a strong preference for plateau inflation, which suggests the use of Pad{\'e} approximants instead. We propose a novel method that provides analytic solutions of the flow equations for a given parametrization of the Hubble function. This method is illustrated in the Taylor and Pad{\'e} cases, for low order expansions. We then present the results of a full numerical treatment scanning larger order expansions, and compare these parametrizations in terms of convergence, prior dependence, predictivity and compatibility with the data. Finally, we highlight the implications for potential reconstruction methods.",

keywords = "ination, physics of the early universe",

author = "Dries Coone and Diederik Roest and Vincent Vennin",

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year = "2015",

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T1 - The Hubble flow of plateau inflation

AU - Coone, Dries

AU - Roest, Diederik

AU - Vennin, Vincent

PY - 2015/11/6

Y1 - 2015/11/6

N2 - In the absence of CMB precision measurements, a Taylor expansion has often been invoked to parametrize the Hubble flow function during inflation. The standard "horizon flow" procedure implicitly relies on this assumption. However, the recent Planck results indicate a strong preference for plateau inflation, which suggests the use of Padé approximants instead. We propose a novel method that provides analytic solutions of the flow equations for a given parametrization of the Hubble function. This method is illustrated in the Taylor and Padé cases, for low order expansions. We then present the results of a full numerical treatment scanning larger order expansions, and compare these parametrizations in terms of convergence, prior dependence, predictivity and compatibility with the data. Finally, we highlight the implications for potential reconstruction methods.

AB - In the absence of CMB precision measurements, a Taylor expansion has often been invoked to parametrize the Hubble flow function during inflation. The standard "horizon flow" procedure implicitly relies on this assumption. However, the recent Planck results indicate a strong preference for plateau inflation, which suggests the use of Padé approximants instead. We propose a novel method that provides analytic solutions of the flow equations for a given parametrization of the Hubble function. This method is illustrated in the Taylor and Padé cases, for low order expansions. We then present the results of a full numerical treatment scanning larger order expansions, and compare these parametrizations in terms of convergence, prior dependence, predictivity and compatibility with the data. Finally, we highlight the implications for potential reconstruction methods.

KW - ination

KW - physics of the early universe

U2 - 10.1088/1475-7516/2015/11/010

DO - 10.1088/1475-7516/2015/11/010

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SN - 1475-7516

VL - 2015

JO - Journal of Cosmology and Astroparticle Physics

JF - Journal of Cosmology and Astroparticle Physics

IS - 11

M1 - 010

ER -

The Hubble flow of plateau inflation

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