Planck 2015 constraints on the non-flat φCDM inflation model

Abstract

We perform Markov chain Monte Carlo analyses to put constraints on the non-flat φCDM inflation model using Planck 2015 cosmic microwave background (CMB) anisotropy data and baryon acoustic oscillation distance measurements. The φCDM model is a consistent dynamical dark energy model in which the currently accelerating cosmological expansion is powered by a scalar field φ slowly rolling down an inverse power-law potential energy density. We also use a physically consistent power spectrum for energy density inhomogeneities in this non-flat model. We find that, like the closed- and closed-XCDM models, the closed-φCDM model provides a better fit to the lower multipole region of the CMB temperature anisotropy data compared to that provided by the tilted flat- model. Also, like the other closed models, this model reduces the tension between the Planck and the weak lensing σ8 constraints. However, the higher multipole region of the CMB temperature anisotropy data are better fit by the tilted flat- model than by the closed models.