Dark energy with w → -1: Asymptotic versus pseudo-

Abstract

If the dark energy density asymptotically approaches a nonzero constant, DE → 0, then its equation of state parameter w necessarily approaches -1. The converse is not true; dark energy with w → -1 can correspond to either DE → 0 or DE → 0. This provides a natural division of models with w → -1 into two distinct classes: asymptotic (DE → 0) and pseudo- (DE → 0). We delineate the boundary between these two classes of models in terms of the behavior of w(a), DE(a), and a(t). We examine barotropic and quintessence realizations of both types of models. Barotropic models with positive squared sound speed and w → -1 are always asymptotically ; they can never produce pseudo- behavior. Quintessence models can correspond to either asymptotic or pseudo- evolution, but the latter is impossible when the expansion is dominated by a background barotropic fluid. We show that the distinction between asymptotic and pseudo- models for w> -1 is mathematically dual to the distinction between pseudo-rip and big/little rip models when w < -1.