Loop-Generated Neutrino Masses in Composite Higgs Models
Abstract
We present a composite scotogenic model for neutrino masses, which are generated via loops of -odd composite scalars. We consider three different approaches to the couplings of the neutrinos (including three right-handed singlets) and the composite sector: ETC-like four-fermion interactions, fundamental partial compositeness and fermion partial compositeness. In all cases, the model can feature sizeable couplings and remain viable with respect to various experimental constraints if the three -odd right-handed neutrinos have masses between the TeV and the Planck scales. Additionally, the lightest -odd composite scalar may play the role of Dark Matter, either via thermal freeze-out or as an asymmetric relic. This mechanism can be featured in a variety of models based on vacuum misalignment. For concreteness, we demonstrate it in a composite two-Higgs scheme based on the coset SU(6)/Sp(6).
Cite
@article{arxiv.2010.01437,
title = {Loop-Generated Neutrino Masses in Composite Higgs Models},
author = {Giacomo Cacciapaglia and Martin Rosenlyst},
journal= {arXiv preprint arXiv:2010.01437},
year = {2021}
}