Low scale leptogenesis under neutrino $\mu$-$\tau$ reflection symmetry

TL;DR

This paper shows that low scale leptogenesis can be compatible with neutrino $$-$ au$ reflection symmetry by considering flavor non-universality, expanding the viable parameter space for models accessible to collider experiments.

Contribution

It demonstrates for the first time that successful low scale leptogenesis is possible under $$-$ au$ reflection symmetry by incorporating flavor non-universality effects.

Findings

Leptogenesis can occur at low scales with $$-$ au$ symmetry.

Flavor non-universality enables successful leptogenesis in these models.

Both resonant and ARS leptogenesis regimes are viable.

Abstract

In the literature, the neutrino $\mu$-$\tau$ reflection symmetry (which has the interesting predictions $\theta^{}_{23} =\pi/4$ and $\delta = \pm \pi/2$ for the atmospherical neutrino mixing angle and Dirac CP phase) is an attractive and widely studied candidate for the flavor symmetries in the neutrino sector. But it is known that, when the seesaw model is furnished with this symmetry, the leptogenesis mechanism (which provides an elegant explanation for the baryon-antibaryon asymmetry of the Universe) can only work in the two-flavor regime (which only holds for the right-handed neutrino masses in the range $10^9-10^{12}$ GeV). This prohibits us to have a low scale seesaw model (which has the potential to be directly accessed by running or upcoming collider experiments) that can have the $\mu$-$\tau$ reflection symmetry and successful leptogenesis simultaneously. In this paper, for the first time, we demonstrate that the successful leptogenesis may also be achieved in low scale seesaw models furnished with the $\mu$-$\tau$ reflection symmetry, by means of the flavor non-universality of the conversion efficiencies from the flavored lepton asymmetries to the baryon asymmetry via the sphaleron process. We perform the study in both the resonant leptogenesis regime and the leptogenesis via oscillations (ARS leptogenesis) regime.