Inflation in F(R) gravity models revisited after ACT

Abstract

The F(R) gravity models of inflation are revisited in light of the recent observations of cosmic microwave background radiation by Atacama Cosmology Telescope (ACT) and DESI Collaboration. A detailed study of the evolution equations in the Jordan frame is given and a new description of the slow-roll approximation in the F(R)-gravity-based models of inflation is proposed. It is found that all those models of inflation are significantly constrained by demanding a higher (than the Planck Telescope value) cosmological tilt ns of scalar perturbations and a positive running index αs favored by ACT. It is not difficult to meet the ACT constraints on the scalar tilt ns by modifying the existing models of inflation, but simultaneously demanding a positive running αs would rule out many of them. Using the proposed slow-roll approximation in the Jordan frame, we provide a new modification of the Starobinsky inflation model in the framework of F(R) gravity, which satisfies all ACT constraints. An extension of our ACT-consistent inflation model to the unified F(R)-gravity description of Starobinsky-like inflation and production of primordial black holes on a smaller scale is also proposed.