English

Dark energy with $w \rightarrow -1$: Asymptotic $\Lambda$ versus pseudo-$\Lambda$

General Relativity and Quantum Cosmology 2018-06-20 v2 Cosmology and Nongalactic Astrophysics

Abstract

If the dark energy density asymptotically approaches a nonzero constant, ρDEρ0\rho_{DE} \rightarrow \rho_0, then its equation of state parameter ww necessarily approaches 1-1. The converse is not true; dark energy with w1w \rightarrow -1 can correspond to either ρDEρ0\rho_{DE} \rightarrow \rho_0 or ρDE0\rho_{DE} \rightarrow 0. This provides a natural division of models with w1w \rightarrow -1 into two distinct classes: asymptotic Λ\Lambda (ρDEρ0\rho_{DE} \rightarrow \rho_0) and pseudo-Λ\Lambda (ρDE0\rho_{DE} \rightarrow 0). We delineate the boundary between these two classes of models in terms of the behavior of w(a)w(a), ρDE(a)\rho_{DE}(a), and a(t)a(t). We examine barotropic and quintessence realizations of both types of models. Barotropic models with positive squared sound speed and w1w \rightarrow -1 are always asymptotically Λ\Lambda; they can never produce pseudo-Λ\Lambda behavior. Quintessence models can correspond to either asymptotic Λ\Lambda or pseudo-Λ\Lambda evolution, but the latter is impossible when the expansion is dominated by a background barotropic fluid. We show that the distinction between asymptotic Λ\Lambda and pseudo-Λ\Lambda models for w>1w> -1 is mathematically dual to the distinction between pseudo-rip and big/little rip models when w<1w < -1.

Keywords

Cite

@article{arxiv.1804.09206,
  title  = {Dark energy with $w \rightarrow -1$: Asymptotic $\Lambda$ versus pseudo-$\Lambda$},
  author = {Robert J. Scherrer},
  journal= {arXiv preprint arXiv:1804.09206},
  year   = {2018}
}

Comments

7 pages, no figures, references added

R2 v1 2026-06-23T01:34:27.754Z