Generalized Holographic and Ricci Dark Energy Models

Abstract

In this paper, we consider generalized holographic and Ricci dark energy models where the energy densities are given as R=3c2M2plRf(H2/R) and h=3c2M2plH2g(R/H2) respectively, here f(x),g(y) are positive defined functions of dimensionless variables H2/R or R/H2. It is interesting that holographic and Ricci dark energy densities are recovered or recovered interchangeably when the function f(x)=g(y) 1 orf=g Id is taken respectively (for example f(x),g(x)=1-ε(1-x), ε=0 or 1 respectively). Also, when f(x) xg(1/x) is taken, the Ricci and holographic dark energy models are equivalents to a generalized one. When the simple forms f(x)=1-ε(1-x) and g(y)=1-η(1-y) are taken as examples, by using current cosmic observational data, generalized dark energy models are researched. As expected, in these cases, the results show that they are equivalent (ε=1-η=1.312) and Ricci-like dark energy is more favored relative to the holographic one where the Hubble horizon was taken as an IR cut-off. And, the suggestive combination of holographic and Ricci dark energy components would be 1.312 R-0.312H2 which is 2.312H2+1.312H in terms of H2 and H.