A Model of Annihilogenesis

Abstract

We present an explicit model of leptogenesis via annihilogenesis in which two right-handed Majorana neutrinos couple to the Standard Model lepton doublets and Higgs, and acquire a large mass shift during a strong first-order phase transition of an additional scalar singlet. As bubbles of true vacuum expand, the a are reflected off the walls and confined to shrinking pockets of false vacuum, where the density grows and the dominant CP-violating process is the 2 4 annihilation 1 1 L1 L1 * *. Interference between tree-level W and B exchange and one-loop diagrams containing the heavier 2 produces a CP asymmetry ε, which we evaluate numerically and find to lie in the range |ε| 10-9--10-7 for O(1) Yukawa couplings. Electroweak sphalerons convert the resulting lepton asymmetry into a baryon asymmetry Y B that reproduces the observed value across a broad region of parameter space, with little sensitivity to the bubble-wall velocity or initial pocket size. The Majorana mass that controls ε is the residual mass of 1 inside the collapsing pockets rather than its post-transition value, so the usual relation between the singlet mass and the Standard Model active neutrino masses is relaxed. As a result, the upper bound on |ε| from the largest light-neutrino mass that constrains standard thermal leptogenesis does not apply, and the lower limits on the right-handed-neutrino scale and the reheating temperature are relaxed.