Exponential F(R) gravity with axion dark matter

Abstract

The cosmological evolution within the framework of exponential F(R) gravity is analysed by assuming two forms for dark matter: (a) a standard dust-like fluid and (b) an axion scalar field. As shown in previous literature, an axion-like field oscillates during the cosmological evolution but can play the role of dark matter when approaching the minimum of its potential. Both scenarios are confronted with recent observational data including the Pantheon Type Ia supernovae, Hubble parameter estimations (Cosmic Chronometers), Baryon Acoustic Oscillations and Cosmic Microwave Background distances. The models show great possibilities in describing these observations when compared with the model, supporting the viability of exponential F(R) gravity. The differences between both descriptions of dark matter is analysed.

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