Early-universe constraints on a Primordial Scaling Field
arXiv:astro-ph/0104162 · doi:10.1103/PhysRevD.64.103508
Abstract
In the past years 'quintessence' models have been considered which can produce the accelerated expansion in the universe suggested by recent astronomical observations. One of the key differences between quintessence and a cosmological constant is that the energy density in quintessence, $Ω_Ï$, could be a significant fraction of the overall energy even in the early universe, while the cosmological constant will be dynamically relevant only at late times. We use standard Big Bang Nucleosynthesis and the observed abundances of primordial nuclides to put constraints on $Ω_Ï$ at temperatures near $T \sim 1MeV$. We point out that current experimental data does not support the presence of such a field, providing the strong constraint $Ω_Ï(MeV) < 0.045$ at $2Ï$ C.L. and strengthening previous results. We also consider the effect a scaling field has on CMB anisotropies using the recent data from Boomerang and DASI, providing the CMB constraint $Ω_Ï\le 0.39$ at $2Ï$ during the radiation dominated epoch.
5 pages, 4 figures. The revised version includes the new Boomerang and DASI data