VISH: a unified solution to five SM shortcomings with a protected electroweak scale

Abstract

We propose a Standard Model extension, coined VISH (Variant-axIon Seesaw Higgs -trino), that is an NDW = 1 variation of its predecessor, the model. In accounting for the origin of neutrino masses, dark matter and the baryon asymmetry of the universe, VISH inherits the explanatory power of while, of course, resolving the strong CP problem. In both models, the electroweak scale is naturally protected from a high seesaw scale that is identified with the Peccei-Quinn (PQ) spontaneous symmetry breaking scale. Through a flavour variant coupling structure, VISH evades a domain wall problem, extending the cosmological reach of the to include a viable period of inflation. The primary focus of this paper is on the inflationary dynamics of VISH and their naturalness in the sense of radiative stability. We find that non-minimal gravitational couplings, generically developed by the VISH scalar fields, naturally support a viable inflaton field which typically has both a PQ scalar and Higgs component. An axion mass window [40μeV, 2meV] accessible to forthcoming searches, results for the case where PQ symmetry is restored during the (p)reheating phase.