Inflection-point inflation in hyper-charge oriented U(1)X model

Abstract

Inflection-point inflation is an interesting possibility to realize a successful slow-roll inflation when inflation is driven by a single scalar field with its value during inflation below the Planck mass (φI MPl). In order for a renormalization group (RG) improved effective λ φ4 potential to develop an inflection-point, the running quartic coupling λ(φ) must exhibit a minimum with an almost vanishing value in its RG evolution, namely λ(φI) 0 and βλ(φI) 0, where βλ is the beta-function of the quartic coupling. In this paper, we consider the inflection-point inflation in the context of the minimal gauged U(1)X extended Standard Model (SM), which is a generalization of the minimal U(1)B-L model, and is constructed as a linear combination of the SM U(1)Y and U(1)B-L gauge symmetries. We identify the U(1)X Higgs field with the inflaton field. For a successful inflection-point inflation to be consistent with the current cosmological observations, the mass ratios among the U(1)X gauge boson, the right-handed neutrinos and the U(1)X Higgs boson are fixed. Focusing on the case that the extra U(1)X gauge symmetry is mostly aligned along the SM U(1)Y direction, we investigate a consistency between the inflationary predictions and the latest LHC Run-2 results on the search for a narrow resonance with the di-lepton final state. %In addition, the inflection-point inflation provides a unique prediction for the running of the spectral index α - 2.7 × %10-3(60N)2 (N is the e-folding number), which can be tested in the near future.