Literature DB >> 19519017

Realistic sterile neutrino dark matter with keV mass does not contradict cosmological bounds.

Alexey Boyarsky1, Julien Lesgourgues, Oleg Ruchayskiy, Matteo Viel.   

Abstract

Previous fits of sterile neutrino dark matter (DM) models to cosmological data ruled out masses smaller than approximately 8 keV, assuming a production mechanism that is not the best motivated from a particle physics point of view. Here we focus on a realistic extension of the standard model with three sterile neutrinos, consistent with neutrino oscillation data and baryogenesis, with the lightest sterile neutrino being the DM particle. We show that for each mass >or= 2 keV there exists at least one model accounting for 100% of DM and consistent with Lyman-alpha and other cosmological, astrophysical, and particle physics data.

Entities:  

Year:  2009        PMID: 19519017     DOI: 10.1103/PhysRevLett.102.201304

Source DB:  PubMed          Journal:  Phys Rev Lett        ISSN: 0031-9007            Impact factor:   9.161


  2 in total

Review 1.  Cosmology and Fundamental Physics with the Euclid Satellite.

Authors:  Luca Amendola; Stephen Appleby; David Bacon; Tessa Baker; Marco Baldi; Nicola Bartolo; Alain Blanchard; Camille Bonvin; Stefano Borgani; Enzo Branchini; Clare Burrage; Stefano Camera; Carmelita Carbone; Luciano Casarini; Mark Cropper; Claudia de Rham; Cinzia Di Porto; Anne Ealet; Pedro G Ferreira; Fabio Finelli; Juan García-Bellido; Tommaso Giannantonio; Luigi Guzzo; Alan Heavens; Lavinia Heisenberg; Catherine Heymans; Henk Hoekstra; Lukas Hollenstein; Rory Holmes; Ole Horst; Knud Jahnke; Thomas D Kitching; Tomi Koivisto; Martin Kunz; Giuseppe La Vacca; Marisa March; Elisabetta Majerotto; Katarina Markovic; David Marsh; Federico Marulli; Richard Massey; Yannick Mellier; David F Mota; Nelson J Nunes; Will Percival; Valeria Pettorino; Cristiano Porciani; Claudia Quercellini; Justin Read; Massimiliano Rinaldi; Domenico Sapone; Roberto Scaramella; Constantinos Skordis; Fergus Simpson; Andy Taylor; Shaun Thomas; Roberto Trotta; Licia Verde; Filippo Vernizzi; Adrian Vollmer; Yun Wang; Jochen Weller; Tom Zlosnik
Journal:  Living Rev Relativ       Date:  2013-09-02       Impact factor: 40.429

Review 2.  Cosmology and fundamental physics with the Euclid satellite.

Authors:  Luca Amendola; Stephen Appleby; Anastasios Avgoustidis; David Bacon; Tessa Baker; Marco Baldi; Nicola Bartolo; Alain Blanchard; Camille Bonvin; Stefano Borgani; Enzo Branchini; Clare Burrage; Stefano Camera; Carmelita Carbone; Luciano Casarini; Mark Cropper; Claudia de Rham; Jörg P Dietrich; Cinzia Di Porto; Ruth Durrer; Anne Ealet; Pedro G Ferreira; Fabio Finelli; Juan García-Bellido; Tommaso Giannantonio; Luigi Guzzo; Alan Heavens; Lavinia Heisenberg; Catherine Heymans; Henk Hoekstra; Lukas Hollenstein; Rory Holmes; Zhiqi Hwang; Knud Jahnke; Thomas D Kitching; Tomi Koivisto; Martin Kunz; Giuseppe La Vacca; Eric Linder; Marisa March; Valerio Marra; Carlos Martins; Elisabetta Majerotto; Dida Markovic; David Marsh; Federico Marulli; Richard Massey; Yannick Mellier; Francesco Montanari; David F Mota; Nelson J Nunes; Will Percival; Valeria Pettorino; Cristiano Porciani; Claudia Quercellini; Justin Read; Massimiliano Rinaldi; Domenico Sapone; Ignacy Sawicki; Roberto Scaramella; Constantinos Skordis; Fergus Simpson; Andy Taylor; Shaun Thomas; Roberto Trotta; Licia Verde; Filippo Vernizzi; Adrian Vollmer; Yun Wang; Jochen Weller; Tom Zlosnik
Journal:  Living Rev Relativ       Date:  2018-04-12       Impact factor: 40.429
  2 in total

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