Power-Law Entropy Corrected Ricci Dark Energy and Dynamics of Scalar Fields
arXiv:1211.0902 · doi:10.1088/0031-8949/86/04/045004
Abstract
Motivated by the holographic principle, it has been suggested that the Dark Energy (DE) density can be inversely proportional to the area $A$ of the event horizon of the universe. However, this kind of model would have a casuality problem. In this work, we study the power-law entropy corrected holographic DE (PLECHDE) model in the non-flat Friedmann-Robertson-Walker universe, with the future event horizon replaced by the average radius of the Ricci scalar curvature. We derive the equation of state parameter $Ï_Î$, the deceleration parameter $q$ and the evolution of energy density parameter $Ω_D'$ in presence of interaction between DE and Dark Matter (DM). We consider the correspondence between our Ricci-PLECHDE model and the Modified Chaplygin Gas (MCG) and the tachyon, K-essence, dilaton and quintessence scalar fields. The potential and the dynamics of the scalar field models have been reconstructed according to the evolutionary behaviour of the interacting entropy-corrected holographic DE model.
23 pages, no figure. arXiv admin note: substantial text overlap with arXiv:1112.6381