Near-resonant thermal leptogenesis produces the observed baryon asymmetry for right-handed neutrino masses above 100 GeV without resonance, including during low-temperature reheating.
Mohapatra and Goran Senjanovic
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A Z2-symmetric SM extension with vector-like fermions and an inert scalar doublet generates neutrino masses radiatively, accounts for (g-2)e,μ anomalies, and yields the observed DM relic abundance while satisfying LFV, direct detection, BBN, and CMB bounds.
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Near-Resonant Thermal Leptogenesis
Near-resonant thermal leptogenesis produces the observed baryon asymmetry for right-handed neutrino masses above 100 GeV without resonance, including during low-temperature reheating.
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Neutrino masses, anomalous magnetic moments and dark matter with vector-like fermions and an inert scalar doublet
A Z2-symmetric SM extension with vector-like fermions and an inert scalar doublet generates neutrino masses radiatively, accounts for (g-2)e,μ anomalies, and yields the observed DM relic abundance while satisfying LFV, direct detection, BBN, and CMB bounds.