SaxiGUTs and their Predictions

Abstract

We introduce a class of unified supersymmetric axion theories with unified and PQ symmetries broken by the same set of fields at a scale 2× 1016 GeV. A typical domain wall number of order 30 leads to an axion decay constant fa of order 1015 GeV. Inflation generates a large saxion condensate giving a reheat temperature TR below the QCD scale for supersymmetry breaking of order 1-10 TeV. Axion field oscillations commence in the saxion matter-dominated era near the QCD scale, and recent lattice computations of the temperature dependence of the axion mass in this era allow a controlled calculation of the axion dark matter abundance. A successful prediction of this abundance results for an initial axion misalignment angle of order unity, θi 1. A highly correlated set of predictions is discussed for fa, TR, the supersymmetric Higgs mass parameter μ, the amount of dark radiation Neff, the proton decay rate (p → e+ π0), isocurvature density perturbations and the B-mode of the cosmic microwave background. The last two are particularly interesting when the energy scale of inflation is also of order 1016 GeV.