On Inflation and Axionic Dark Matter in a Scaled Gravity

Abstract

Motivated by the modified gravity theories F(R)≠ R and inflationary physics, we first propose and investigate an inflation model in a scaled gravity F(R)=R\,+β R, where β is a dimensionless scaling parameter. The latter is also implemented in a particular potential V(φ )=M4[ 1- ( φ μ)β ] being considered to drive the inflation via a parameter coupling scenario. Using the slow-roll approximations, the gravity scale parameter β is approached with respect to the range of the associated computed cosmological observables ns and r according to the recent Planck and BICEP/Keck data. Then, we discuss the axionic dark matter in the suggested gravity model by considering the case where the inflaton is taken to be identified with an axion-like field φ =faθ with the decay constant fa=μ. Referring to the known data, the underlying inflation scale M is constrained to be much lower than the corresponding axion scale M fa.