Current Observational Constraints to Holographic Dark Energy Model with New Infrared cut-off via Markov Chain Monte Carlo Method

Дата и время публикации : 2010-04-20T04:09:58Z

Авторы публикации и институты :
Yuting Wang
Lixin Xu

Ссылка на журнал-издание: Phys. Rev. D 81, 083523 (2010).
Коментарии к cтатье: New version after removing a programming error.
Первичная категория: astro-ph.CO

Все категории : astro-ph.CO

Краткий обзор статьи: In this paper, the holographic dark energy model with new infrared (IR) cut-off for both the flat case and the non-flat case are confronted with the combined constraints of current cosmological observations: type Ia Supernovae, Baryon Acoustic Oscillations, current Cosmic Microwave Background, and the observational hubble data. By utilizing the Markov Chain Monte Carlo (MCMC) method, we obtain the best fit values of the parameters with $1sigma, 2sigma$ errors in the flat model: $Omega_{b}h^2=0.0233^{+0.0009 +0.0013}_{-0.0009 -0.0014}$, $alpha=0.8502^{+0.0984 +0.1299}_{-0.0875 -0.1064}$, $beta=0.4817^{+0.0842 +0.1176}_{-0.0773 -0.0955}$, $Omega_{de0}=0.7287^{+0.0296 +0.0432}_{-0.0294 -0.0429}$, $Omega_{m0}=0.2713^{+0.0294 +0.0429}_{-0.0296 -0.0432}$, $H_0=66.35^{+2.38 +3.35}_{-2.14 -3.07}$. In the non-flat model, the constraint results are found in $1sigma, 2sigma$ regions: $Omega_{b}h^2=0.0228^{+0.0010 +0.0014}_{-0.0010 -0.0014}$, $Omega_k=0.0305^{+0.0092 +0.0140}_{-0.0134 -0.0176}$, $alpha=0.8824^{+0.2180 +0.2213}_{-0.1163 -0.1378}$, $beta=0.5016^{+0.0973 +0.1247}_{-0.0871 -0.1102}$, $Omega_{de0}=0.6934^{+0.0364 +0.0495}_{-0.0304 -0.0413}$, $Omega_{m0}=0.2762^{+0.0278 +0.0402}_{-0.0320 -0.0412}$, $H_0=70.20^{+3.03 +3.58}_{-3.17 -4.00}$. In the best fit holographic dark energy models, the equation of state of dark energy and the deceleration parameter at present are characterized by $w_{de0}=-1.1414pm0.0608, q_0=-0.7476pm0.0466$ (flat case) and $w_{de0}=-1.0653pm0.0661, q_0=-0.6231pm0.0569$ (non-flat case). Compared to the $Lambda textmd{CDM}$ model, it is found the current combined datasets do not favor the holographic dark energy model over the $Lambda textmd{CDM}$ model.

Category: Physics