Unifying inflation with the axion, dark matter, baryogenesis and the seesaw mechanism

Abstract

A minimal extension of the Standard Model (SM) with a single new mass scale and providing a complete and consistent picture of particle physics and cosmology up to the Planck scale is presented. We add to the SM three right-handed SM-singlet neutrinos, a new vector-like color triplet fermion and a complex SM singlet scalar σ that stabilises the Higgs potential and whose vacuum expectation value at 1011 GeV breaks lepton number and a Peccei-Quinn symmetry simultaneously. Primordial inflation is produced by a combination of σ (non-minimally coupled to the scalar curvature) and the SM Higgs. Baryogenesis proceeds via thermal leptogenesis. At low energies, the model reduces to the SM, augmented by seesaw-generated neutrino masses, plus the axion, which solves the strong CP problem and accounts for the dark matter in the Universe. The model predicts a minimum value of the tensor-to-scalar ratio r 0.004, running of the scalar spectral index α - 7× 10-4, the axion mass mA 100\,μ eV and cosmic axion background radiation corresponding to an increase of the effective number of relativistic neutrinos of 0.03. It can be probed decisively by the next generation of cosmic microwave background and axion dark matter experiments.