Improved cosmological constraints on the curvature and equation of state of dark energy

Abstract

We apply the Constitution compilation of 397 supernova Ia, the baryon acoustic oscillation measurements including the A parameter, the distance ratio and the radial data, the five-year Wilkinson microwave anisotropy probe and the Hubble parameter data to study the geometry of the universe and the property of dark energy by using the popular Chevallier-Polarski-Linder and Jassal-Bagla-Padmanabhan parameterizations. We compare the simple 2 method of joined contour estimation and the Monte Carlo Markov chain method, and find that it is necessary to make the marginalized analysis on the error estimation. The probabilities of k and wa in the Chevallier-Polarski-Linder model are skew distributions, and the marginalized 1σ errors are m=0.279+0.015-0.008, k=0.005+0.006-0.011, w0=-1.05+0.23-0.06, and wa=0.5+0.3-1.5. For the Jassal-Bagla-Padmanabhan model, the marginalized 1σ errors are m=0.281+0.015-0.01, k=0.000+0.007-0.006, w0=-0.96+0.25-0.18, and wa=-0.6+1.9-1.6. The equation of state parameter w(z) of dark energy is negative in the redshift range 0 z 2 at more than 3σ level. The flat model is consistent with the current observational data at the 1σ level.