Bridging resonant leptogenesis and low-energy CP violation with an RGE-modified seesaw relation

Abstract

We propose a special type-I seesaw scenario in which the Yukawa coupling matrix Y can be fully reconstructed by using the light Majorana neutrino masses mi, the heavy Majorana neutrino masses Mi and the PMNS lepton flavor mixing matrix U. It is the RGE-induced correction to the seesaw relation that helps interpret the observed baryon-antibaryon asymmetry of the Universe via flavored resonant thermal leptogenesis with M1 M2 M3. We show that our idea works well in either the τ-flavored regime with equilibrium temperature T M1 ∈ (109, 1012] GeV or the (μ+τ)-flavored regime with T M1 ∈ (105, 109] GeV, provided the light neutrinos have a normal mass ordering. We find that the same idea is also viable for a minimal type-I seesaw model with two nearly degenerate heavy Majorana neutrinos.