English

Early Cosmology Constrained

Cosmology and Nongalactic Astrophysics 2019-04-15 v1

Abstract

We investigate our knowledge of early universe cosmology by exploring how much additional energy density can be placed in different components beyond those in the Λ\LambdaCDM model. To do this we use a method to separate early- and late-universe information enclosed in observational data, thus markedly reducing the model-dependency of the conclusions. We find that the 95\% credibility regions for extra energy components of the early universe at recombination are: non-accelerating additional fluid density parameter ΩMR<0.006\Omega_{\rm MR} < 0.006 and extra radiation parameterised as extra effective neutrino species 2.3<Neff<3.22.3 < N_{\rm eff} < 3.2 when imposing flatness. Our constraints thus show that even when analyzing the data in this largely model-independent way, the possibility of hiding extra energy components beyond Λ\LambdaCDM in the early universe is seriously constrained by current observations. We also find that the standard ruler, the sound horizon at radiation drag, can be well determined in a way that does not depend on late-time Universe assumptions, but depends strongly on early-time physics and in particular on additional components that behave like radiation. We find that the standard ruler length determined in this way is rs=147.4±0.7r_{\rm s} = 147.4 \pm 0.7 Mpc if the radiation and neutrino components are standard, but the uncertainty increases by an order of magnitude when non-standard dark radiation components are allowed, to rs=150±5r_{\rm s} = 150 \pm 5 Mpc.

Keywords

Cite

@article{arxiv.1611.00376,
  title  = {Early Cosmology Constrained},
  author = {Licia Verde and Emilio Bellini and Cassio Pigozzo and Alan F. Heavens and Raul Jimenez},
  journal= {arXiv preprint arXiv:1611.00376},
  year   = {2019}
}

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R2 v1 2026-06-22T16:39:06.420Z