Resonant leptogenesis with mild degeneracy

Abstract

Under the assumption of hierarchical right-handed neutrino masses, masses of right-handed neutrinos must be larger than 108 GeV in the standard thermal leptogenesis scenario, while the mass can be reduced to around 5 TeV in a neutrinophilic two Higgs doublet model. On the other hand, resonant leptogenesis can work with the masses of TeV-scale. However, necessary degeneracy between the lightest and the second lightest right-handed neutrino masses means unnatural fine-tuning of the order of 109. In this paper, we will investigate the resonant leptogenesis scenario in a neutrinophilic two Higgs doublet model. We will find the mass can be reduced to 2 TeV and the degeneracy becomes much milder as of the order of 104. We will also show that degenerate mass spectrum of active neutrinos is disfavored in this setup.