keV sterile neutrino dark matter and low scale leptogenesis

Sin Kyu Kang; Ayon Patra

doi:10.3938/jkps.69.1375

keV sterile neutrino dark matter and low scale leptogenesis

Sin Kyu Kang, Ayon Patra

School of Natural Sciences

Seoul National University of Science and Technology (SNUST)

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

6 Scopus citations

Abstract

We consider a simple extension of the Standard Model to consistently explain the observation of a peak in the galactic X-ray spectrum at 3.55 keV, the light neutrino masses, and the baryon asymmetry of the universe. The baryon asymmetry is generated through leptogenesis, the lepton asymmetry being generated by the decay of a heavy neutrino with a TeV mass scale. The extra singlet fermion introduced in the model can be identified as a dark matter candidate with a mass of 7.1 keV. It decays with a lifetime much larger than the age of the universe, producing a final state photon. The Yukawa interactions between the extra singlet neutrino and a heavier right-handed neutrino play a crucial role in simultaneously achieving low-scale leptogenesis and the relic density of the keV dark matter candidate.

Original language	English
Pages (from-to)	1375-1382
Number of pages	8
Journal	Journal of the Korean Physical Society
Volume	69
Issue number	8
DOIs	https://doi.org/10.3938/jkps.69.1375
State	Published - 1 Oct 2016

Keywords

Dark matter
Leptogenesis
Sterile neutrino

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10.3938/jkps.69.1375

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title = "keV sterile neutrino dark matter and low scale leptogenesis",

abstract = "We consider a simple extension of the Standard Model to consistently explain the observation of a peak in the galactic X-ray spectrum at 3.55 keV, the light neutrino masses, and the baryon asymmetry of the universe. The baryon asymmetry is generated through leptogenesis, the lepton asymmetry being generated by the decay of a heavy neutrino with a TeV mass scale. The extra singlet fermion introduced in the model can be identified as a dark matter candidate with a mass of 7.1 keV. It decays with a lifetime much larger than the age of the universe, producing a final state photon. The Yukawa interactions between the extra singlet neutrino and a heavier right-handed neutrino play a crucial role in simultaneously achieving low-scale leptogenesis and the relic density of the keV dark matter candidate.",

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AB - We consider a simple extension of the Standard Model to consistently explain the observation of a peak in the galactic X-ray spectrum at 3.55 keV, the light neutrino masses, and the baryon asymmetry of the universe. The baryon asymmetry is generated through leptogenesis, the lepton asymmetry being generated by the decay of a heavy neutrino with a TeV mass scale. The extra singlet fermion introduced in the model can be identified as a dark matter candidate with a mass of 7.1 keV. It decays with a lifetime much larger than the age of the universe, producing a final state photon. The Yukawa interactions between the extra singlet neutrino and a heavier right-handed neutrino play a crucial role in simultaneously achieving low-scale leptogenesis and the relic density of the keV dark matter candidate.

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JO - Journal of the Korean Physical Society

JF - Journal of the Korean Physical Society

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ER -

keV sterile neutrino dark matter and low scale leptogenesis

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