中文

Physical constraints on the halo mass function

天体物理学 2015-06-24 v2

摘要

We analyse the effect of two relevant physical constraints on the mass multiplicity function of dark matter halos in a Press--Schechter type algorithm. Considering the random--walk of linear Gaussian density fluctuations as a function of the smoothing scale, we simultaneously i) account for mass semi--positivity and ii) avoid the cloud--in--cloud problem. It is shown that the former constraint implies a severe cutoff of low--mass objects, balanced by an increase on larger mass scales. The analysis is performed both for scale--free power--spectra and for the standard cold dark matter model. Our approach shows that the well--known ``infrared" divergence of the standard Press--Schechter mass function is caused by unphysical, negative mass events which inevitably occur in a Gaussian distribution of density fluctuations.

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引用

@article{arxiv.astro-ph/9506006,
  title  = {Physical constraints on the halo mass function},
  author = {C. Porciani and F. Ferrini and F. Lucchin and S. Matarrese},
  journal= {arXiv preprint arXiv:astro-ph/9506006},
  year   = {2015}
}

备注

Revised version (accepted for publication in MNRAS) including a new comparison with numerical results, a new appendix and new references. uuencoded gzip'ed tar archive containing many LaTex files (the main file is mass.tex). 16 pages with 6 figures (all included)