Standard Model - Axion - Seesaw - H portal inflation

Abstract

Extending the Standard Model with a new complex singlet scalar, right-handed neutrinos and a vector-like quark allows to simultaneously tackle several problems in particle physics and cosmology within a constrained framework that can be falsified by future probes of the cosmic microwave background, as well as by upcoming axion experiments. This Standard Model - Axion - Seesaw - H portal inflation theory (SMASH) provides predictive inflation and H boson stabilization, and can explain baryogenesis, light neutrino masses, dark matter and the strong CP problem. The model contains a unique new mass scale which coincides with the axion decay constant, and also sets the scale for perturbative lepton-number violation processes. Testable predictions include a minimum value of the tensor-to-scalar ratio of r 0.004, a running of the spectral index α-8×10-4, a change δ N eff 0.03 in the number of effective relativistic neutrinos, and an axion mass in the range 50μ eV≤ mA ≤ 200 μ eV.