中文

Cold dark matter models with high baryon content

天体物理学 2015-06-24 v2

摘要

Recent results have suggested that the density of baryons in the Universe, OmegaB, is much more uncertain than previously thought, and may be significantly higher. We demonstrate that a higher OmegaB increases the viability of critical-density cold dark matter (CDM) models. High baryon fraction offers the twin benefits of boosting the first peak in the microwave anisotropy power spectrum and of suppressing short-scale power in the matter power spectrum. These enable viable CDM models to have a larger Hubble constant than otherwise possible. We carry out a general exploration of high OmegaB CDM models, varying the Hubble constant h and the spectral index n. We confront a variety of observational constraints and discuss specific predictions. Although some observational evidence may favour baryon fractions as high as 20 per cent, we find that values around 10 to 15 per cent provide a reasonable fit to a wide range of data. We suggest that models with OmegaB in this range, with h about 0.5 and n about 0.8, are currently the best critical-density CDM models.

关键词

引用

@article{arxiv.astro-ph/9605057,
  title  = {Cold dark matter models with high baryon content},
  author = {Martin White and Pedro T. P. Viana and Andrew R. Liddle and Douglas Scott},
  journal= {arXiv preprint arXiv:astro-ph/9605057},
  year   = {2015}
}

备注

14 pages, LaTeX, with 9 included figures, to appear in MNRAS. Revised version includes updated references, some changes to section 4. Conclusions unchanged