Reconstruction of general scalar-field dark energy models
arXiv:astro-ph/0508542 · doi:10.1103/PhysRevD.72.083512
Abstract
The reconstruction of scalar-field dark energy models is studied for a general Lagrangian density $p(Ï, X)$, where $X$ is a kinematic term of a scalar field $Ï$. We implement the coupling $Q$ between dark energy and dark matter and express reconstruction equations using two observables: the Hubble parameter $H$ and the matter density perturbation $δ_m$. This allows us to determine the structure of corresponding theoretical Lagrangian together with the coupling $Q$ from observations. We apply our formula to several forms of Lagrangian and present concrete examples of reconstruction by using the recent Gold dataset of supernovae measurements. This analysis includes a generalized ghost condensate model as a way to cross a cosmological-constant boundary even for a single-field case.
8 pages, 2 figures