A Note on Agegraphic Dark Energy

Abstract

Recently a new model of dynamical dark energy, or time-varying , was proposed by Cai [arXiv:0707.4049] by relating the energy density of quantum fluctuations in a Minkowski space-time, namely q 3 n2 mP2/t2, where n O(1) and t is the cosmic time, to the present day dark energy density. In this note, we show that the model can be adjusted to the present values of dark energy density parameter q ( 0.73) and the equation of state wq ( -1) only if the numerical coefficient n takes a reasonably large value (n 3) or the present value of the gravitational coupling of q-field to (dark) matter is also nonzero, namely, Q 2n(q0)3/2>0 where q0 is the present value of dark energy density fraction. We also discuss some of the difficulties of this proposal as a viable dark energy model with a constant n; especially, the bound imposed on the dark energy density parameter q <0.1 during big bang nucleosynthesis (BBN) requires n< 1/6. To overcome this drawback, we outline a few modifications where such constraints can be weakened or relaxed. Finally, by establishing a correspondence between the agegraphic dark energy scenario and the standard scalar-field model, we also point out some interesting features of an agegraphic quintessence model.