Power-Law Bounces in f(R) Gravity: Analysis of the Ekpyrosis and Accelerating Regimes

Abstract

We investigate the dynamics of the Friedmann-Lema\itre-Robertson-Walker spacetime within the framework of f(R) gravity using a compact, model-independent dynamical systems approach. By assuming a power-law scale factor, we explore ekpyrotic and accelerating solutions to address the big bang singularity. Our analysis demonstrates that a cosmological bounce, characterized by a transition from contraction to expansion, possibly avoids the singularity without directly using the Raychaudhuri equation, unlike previous approaches using specific f(R) Rn forms. We identify a key fixed point in the phase space corresponding to the bounce, supported by perturbation analysis and qualitative description of trajectories in the phase space. The results suggest that f(R) gravity provides a robust framework for non-singular cosmologies.