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A common framework for fermion mass hierarchy, leptogenesis and dark matter
Journal
Journal of High Energy Physics
Date Issued
2024-08-01
Author(s)
Arbeláez, Carolina
Contreras, Patricio Escalona
K. N, Vishnudath
Abstract
In this work, we explore an extension of the Standard Model designed to elucidate the fermion mass hierarchy, account for the dark matter relic abundance, and explain the observed matter-antimatter asymmetry in the universe. Beyond the Standard Model particle content, our model introduces additional scalars and fermions. Notably, the light active neutrinos and the first two generations of charged fermions acquire masses at the one-loop level. The model accommodates successful low-scale leptogenesis, permitting the mass of the decaying heavy right-handed neutrino to be as low as 10 TeV. We conduct a detailed analysis of the dark matter phenomenology and explore various interesting phenomenological implications. These include charged lepton flavor violation, muon and electron anomalous magnetic moments, constraints arising from electroweak precision observables, and implications for collider experiments.
Funding(s)
ANID
ANID
ANID/FONDECYT/POSTDOCTORAL
ANID/FONDECYT
ANID/FONDECYT
ANID/FONDECYT
ANID/FONDECYT
ANID PIA/APOYO
ANID/Millenium Science Initiative
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JHEP08(2024)235 (1)_compressed.pdf
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1002.64 KB
Format
Checksum