Reconciling Higgs Inflation with ACT Observations through Reheating

Abstract: The Higgs inflation model with nonminimal coupling, while disfavored by the 1$\sigma$ region of the latest Atacama Cosmology Telescope (ACT) observational data, can be reconciled with the ACT data by incorporating the effects of reheating. In this paper, we consider reheating with a constant equation of state $w_{re}$. To simultaneously satisfy the ACT data and ensure that the temperature at the end of reheating is above the threshold required for Big Bang Nucleosynthesis, we find that the equation of state must satisfy $w_{re} \gtrsim 2/3$. For the special cases of $w_{ re} = 2/3$ and $w_{ re} = 1$, the number of e-folds during reheating must lie within the ranges $31.6 \leq N_{ re} \leq 32.8$ and $15.8 \leq N_{ re} \leq 27.3$, respectively. Our findings suggest that by considering reheating, a wide range of inflationary models, such as $R^2$ inflation, hilltop inflation, E-model inflation, and T-model inflation, can also be made consistent with the ACT observational data.