Observational Constraints to Ricci Dark Energy Model by Using: SN, BAO, OHD, fgas Data Sets

Abstract

In this paper, we perform a global constraint on the Ricci dark energy model with both the flat case and the non-flat case, using the Markov Chain Monte Carlo (MCMC) method and the combined observational data from the cluster X-ray gas mass fraction, Supernovae of type Ia (397), baryon acoustic oscillations, current Cosmic Microwave Background, and the observational Hubble function. In the flat model, we obtain the best fit values of the parameters in 1σ, 2σ regions: m0=0.2927+0.0420 +0.0542-0.0323 -0.0388, α=0.3823+0.0331 +0.0415-0.0418 -0.0541, Age/Gyr=13.48+0.13 +0.17-0.16 -0.21, H0=69.09+2.56 +3.09-2.37 -3.39. In the non-flat model, the best fit parameters are found in 1σ, 2σ regions:m0=0.3003+0.0367 +0.0429-0.0371 -0.0423, α=0.3845+0.0386 +0.0521-0.0474 -0.0523, k=0.0240+0.0109 +0.0133-0.0130 -0.0153, Age/Gyr=12.54+0.51 +0.65-0.37 -0.49, H0=72.89+3.31 +3.88-3.05 -3.72. Compared to the constraint results in the CDM model by using the same datasets, it is shown that the current combined datasets prefer the CDM model to the Ricci dark energy model.