Approximation of the potential in scalar field dark energy models
arXiv:1607.01720 · doi:10.1103/PhysRevD.94.063513
Abstract
We study the nature of potentials in scalar field based models for dark energy - with both canonical and noncanonical kinetic terms. We calculate numerically, and using an analytic approximation around $a\approx 1$, potentials for models with constant equation-of-state parameter, $w_Ï$. We find that for a wide range of models with canonical and noncanonical kinetic terms there is a simple approximation for the potential that holds when the scale factor is in the range $0.6\lesssim a\lesssim 1.4$. We discuss how this form of the potential can also be used to represent models with non-constant $w_Ï$ and, hence, how it could be used in reconstruction from cosmological data.
17 pages, 6 figures. Accepted by Phys. Rev. D