Phenomenological Constraints on Higgs reheating

Abstract

In many models of inflation, reheating is realized through a coupling between the inflaton and the Higgs boson. Often, the mass of the inflaton is of order 1013~GeV determined by the amplitude of the scalar fluctuation spectrum. However, in models where the inflaton potential is of the form V φk about its minimum, the inflaton is massless for k 4 unless a bare mass term, 12 mφ2 φ2, is present. In this case, the inflaton mass may be of order the electroweak scale and may be subject to existing collider constraints. In particular, we investigate the constraints on the inflaton mass and reheating temperature T rh arising from the decay of φ into H through an interaction term μ φ |H|2. We perform a renormalization group analysis to determine the relative values of μ and mφ such that the Higgs potential remains stable (and perturbative) at high energy. Taking into account the running of the Higgs quartic self-coupling and the experimental constraints from the LHC via the HiggsTools public code, we find that 3.4 × 106 GeV T rh 3.9 × 1012 GeV with a corresponding constraint on the inflaton bare mass 260~ GeV mφ 3.8 × 1010~ GeV. The dependencies between T rh and the inflaton bare mass mφ as well as between μ and mφ are provided.