Neutrino dark energy—revisiting the stability issue

Ole Eggers Bjælde; Anthony W Brookfield; Carsten van de Bruck; Steen Hannestad; David F Mota; Lily Schrempp; Domenico Tocchini-Valentini

doi:10.1088/1475-7516/2008/01/026

Journal of Cosmology and Astroparticle Physics

Neutrino dark energy—revisiting the stability issue

Ole Eggers Bjælde¹, Anthony W Brookfield^2,3, Carsten van de Bruck², Steen Hannestad¹, David F Mota^4,5, Lily Schrempp⁶ and Domenico Tocchini-Valentini⁷

Published 23 January 2008 • IOP Publishing Ltd
Journal of Cosmology and Astroparticle Physics, Volume 2008, January 2008 Citation Ole Eggers Bjælde et al JCAP01(2008)026 DOI 10.1088/1475-7516/2008/01/026

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¹ Department of Physics and Astronomy, University of Aarhus, Ny Munkegade, DK-8000 Aarhus C, Denmark

² Department of Applied Mathematics, Astro-Particle Theory and Cosmology Group, Hounsfield Road, Hicks Building, University of Sheffield, Sheffield S3 7RH, UK

³ Department of Physics, Astro-Particle Theory and Cosmology Group, Hounsfield Road, Hicks Building, University of Sheffield, Sheffield S3 7RH, UK

⁴ Institute for Theoretical Physics, University of Heidelberg, D-69120 Heidelberg, Germany

⁵ Institute of Theoretical Astrophysics, University of Astrophysics, N-0315 Oslo, Norway

⁶ Deutsches Elektron-Synchroton DESY, Hamburg, Notkestrasse 85, 22607 Hamburg, Germany

⁷ Department of Physics and Astronomy, The Johns Hopkins University, Baltimore, MD 21218, USA

Dates

Received 31 May 2007
Accepted 19 December 2007
Published 23 January 2008

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Abstract

A coupling between a light scalar field and neutrinos has been widely discussed as a mechanism for linking (time varying) neutrino masses and the present energy density and equation of state of dark energy. However, it has been pointed out that the viability of this scenario in the non-relativistic neutrino regime is threatened by the strong growth of hydrodynamic perturbations associated with a negative adiabatic sound speed squared. In this paper we revisit the stability issue in the framework of linear perturbation theory in a model independent way. The criterion for the stability of a model is translated into a constraint on the scalar–neutrino coupling, which depends on the ratio of the energy densities in neutrinos and cold dark matter. We illustrate our results by providing meaningful examples for both stable and unstable models.

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