Reconciling Nonminimally Coupled Higgs Inflation with ACT DR6 Observations through Reheating

Abstract

The Higgs inflation model with nonminimal coupling, while disfavored by the 1σ region of the latest Atacama Cosmology Telescope Data Release 6 (ACT DR6) observational data, can be reconciled with the ACT DR6 data by incorporating the effects of reheating. In this paper, we consider reheating with a constant equation of state wre. For the strong coupling case ξ=100, we find that reconciling the model with both the ACT DR6 constraints and the minimum reheating temperature required for successful Big Bang Nucleosynthesis (BBN) demands wre ≥ 0.92. Specifically, the reheating e-folding number must be N re= 28.3 for w re = 0.92, and within 24.9 ≤ N re ≤ 27.2 for w re = 1. In the more general case without assuming the strong coupling limit, consistency with both ACT and BBN requires the nonminimal coupling to satisfy ξ≥ 0.05. Our findings suggest that by considering reheating, a wide range of inflationary models, such as R2 inflation, hilltop inflation, E-model inflation, and T-model inflation, can also be made consistent with the ACT DR6 observational data.