中文

Pursuing Parameters for Critical Density Dark Matter Models

天体物理学 2015-06-24 v2 高能物理 - 唯象学

摘要

We present an extensive comparison of models of structure formation with observations, based on linear and quasi-linear theory. We assume a critical matter density, and study both cold dark matter models and cold plus hot dark matter models. We explore a wide range of parameters, by varying the fraction of hot dark matter Ων\Omega_{\nu}, the Hubble parameter hh and the spectral index of density perturbations nn, and allowing for the possibility of gravitational waves from inflation influencing large-angle microwave background anisotropies. New calculations are made of the transfer functions describing the linear power spectrum, with special emphasis on improving the accuracy on short scales where there are strong constraints. For assessing early object formation, the transfer functions are explicitly evaluated at the appropriate redshift. The observations considered are the four-year {\it COBE} observations of microwave background anisotropies, peculiar velocity flows, the galaxy correlation function, and the abundances of galaxy clusters, quasars and damped Lyman alpha systems. Each observation is interpreted in terms of the power spectrum filtered by a top-hat window function. We find that there remains a viable region of parameter space for critical-density models when all the dark matter is cold, though hh must be less than 0.5 before any fit is found and nn significantly below unity is preferred. Once a hot dark matter component is invoked, a wide parameter space is acceptable, including n1n\simeq 1. The allowed region is characterized by Ων\la0.35\Omega_\nu \la 0.35 and 0.60\lan\la1.250.60 \la n \la 1.25, at 95 per cent confidence on at least one piece of data. There is no useful lower bound on hh, and for curious combinations of the other parameters it is possible to fit the data with hh as high as 0.65.

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引用

@article{arxiv.astro-ph/9511057,
  title  = {Pursuing Parameters for Critical Density Dark Matter Models},
  author = {Andrew R Liddle and David H Lyth and R K Schaefer and Q Shafi and Pedro T P Viana},
  journal= {arXiv preprint arXiv:astro-ph/9511057},
  year   = {2015}
}

备注

19 pages LaTeX file (uses mn.sty). Figures *not* included due to length. We strongly recommend obtaining the full paper, either by WWW at http://star-www.maps.susx.ac.uk/papers/lsstru_papers.html (UK) or http://www.bartol.udel.edu/~bob/papers (US), or by e-mailing ARL. Final version, to appear MNRAS. Main revision is update to four-year COBE data. Miscellaneous other changes and reference updates. No significant changes to principal conclusions