Unbraiding the bounce: Superluminality around the corner

David A. Dobre; Andrei V. Frolov; José T.Gálvez Ghersi; Sabir Ramazanov; Alexander Vikman

doi:10.1088/1475-7516/2018/03/020

Unbraiding the bounce: Superluminality around the corner

David A. Dobre, Andrei V. Frolov, José T.Gálvez Ghersi, Sabir Ramazanov, Alexander Vikman

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

53 Scopus citations

Abstract

We study a particular realization of the cosmological bounce scenario proposed recently by Ijjas and Steinhardt in [1]. First, we find that their bouncing solution starts from a divergent sound speed and ends with its vanishing. Thus, the solution connects two strongly coupled configurations. These pathologies are separated from the bouncing regime by only a few Planck times. We then reveal the exact structure of the Lagrangian, which reproduces this bouncing solution. This reconstruction allowed us to consider other cosmological solutions of the theory and analyze the phase space. In particular, we find other bouncing solutions and solutions with superluminal sound speed. These stable superluminal states can be continuously transformed into the solution constructed by Ijjas and Steinhardt. We discuss the consequences of this feature for a possible UV-completion.

Original language	English
Article number	020
Journal	Journal of Cosmology and Astroparticle Physics
Volume	2018
Issue number	3
DOIs	https://doi.org/10.1088/1475-7516/2018/03/020
State	Published - 12 Mar 2018
Externally published	Yes

Keywords

alternatives to ination
cosmic singularity
initial conditions and eternal universe
physics of the early universe

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10.1088/1475-7516/2018/03/020

Cite this

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title = "Unbraiding the bounce: Superluminality around the corner",

abstract = "We study a particular realization of the cosmological bounce scenario proposed recently by Ijjas and Steinhardt in [1]. First, we find that their bouncing solution starts from a divergent sound speed and ends with its vanishing. Thus, the solution connects two strongly coupled configurations. These pathologies are separated from the bouncing regime by only a few Planck times. We then reveal the exact structure of the Lagrangian, which reproduces this bouncing solution. This reconstruction allowed us to consider other cosmological solutions of the theory and analyze the phase space. In particular, we find other bouncing solutions and solutions with superluminal sound speed. These stable superluminal states can be continuously transformed into the solution constructed by Ijjas and Steinhardt. We discuss the consequences of this feature for a possible UV-completion.",

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AU - Ghersi, José T.Gálvez

AU - Ramazanov, Sabir

AU - Vikman, Alexander

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AB - We study a particular realization of the cosmological bounce scenario proposed recently by Ijjas and Steinhardt in [1]. First, we find that their bouncing solution starts from a divergent sound speed and ends with its vanishing. Thus, the solution connects two strongly coupled configurations. These pathologies are separated from the bouncing regime by only a few Planck times. We then reveal the exact structure of the Lagrangian, which reproduces this bouncing solution. This reconstruction allowed us to consider other cosmological solutions of the theory and analyze the phase space. In particular, we find other bouncing solutions and solutions with superluminal sound speed. These stable superluminal states can be continuously transformed into the solution constructed by Ijjas and Steinhardt. We discuss the consequences of this feature for a possible UV-completion.

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Unbraiding the bounce: Superluminality around the corner

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