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In this paper, we use the type Ia supernovae data to constrain the holographic dark energy model proposed by Li. We also apply a cosmic age test to this analysis. We consider in this paper a spatially flat Friedmann-Robertson-Walker universe with a matter component and a holographic dark energy component. The fit result shows that the case c<1 (c=0. 21) is favored, which implies that the holographic dark energy behaves as a quintom-type dark energy. Furthermore, we also perform a joint analysis of SNe+CMB+LSS to this model; the result is well improved and still upholds the quintom dark energy conclusion. The best fit results in our analysis are c=0. 81, ₌^0=0. 28, and h=0. 65, which lead to the present equation of state of dark energy w₀=-1. 03 and the deceleration/acceleration transition redshift zₓ=0. 63. Finally, an expected supernova/acceleration probe simulation using as a fiducial model is performed on this model, and the result shows that the holographic dark energy model takes on c<1 (c=0. 92) even though the dark energy is indeed a cosmological constant.
Zhang et al. (Tue,) studied this question.
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