English

Lyman alpha absorption lines from mini pancakes

Astrophysics 2009-10-30 v1

Abstract

[Abridged abstract:] Recent numerical simulations show that many \lyal\lyal absorption lines of column densities \nha\la1015\nha \la 10^{15} cm2^{-2} are produced in transient, mini pancakes. Such pancakes are modeled here, approximating the initial perturbation leading to the formation of the pancake as a single sinusoidal wave. The density and temperature profiles of the gas in the pancake are determined for zc3z_c \sim 3, where zcz_c is the collapse redshift. The \lyal\lyal absorption line profiles for a line of sight through the pancake are then calculated. The absorption lines in general have wings signifying bulk motions in the gas. It is shown that the deviation from a single Voigt profile is large for small H I column density lines, in which the effect of bulk motions is large. For lines with \nha>1013\nha > 10^{13} cm2^{-2}, high temperature tend to wash out the signatures of bulk motion. The analytical modeling of mini pancakes associated with \lyal\lyal forest lines --- with 1013\la\nha\la101510^{13} \la \nha \la 10^{15} cm2^{-2}---gives the corresponding mass scales. It is shown here that, for typical values of cosmological parameters, absorption lines with \nha1014\nha \sim 10^{14} cm2^{-2} correspond to structures with baryonic mass of Mb1010M_b \sim 10^{10} M_{\odot} with an overdensity of 10\sim 10 at z3z \sim 3. The value of \nha\nha can change by a factor 3\sim 3 in the course of evolution of the pancake in time. It is also shown that there is an upper limit to \nha\nha from a pancake due to the slow recombination rate and the importance of collisional ionization at high temperatures. Mini pancakes do not give rise to \lyal\lyal lines with \nha\ga1014.5\nha \ga 10^{14.5} cm2^{-2}, for \j21=1\j21=1 and ΩIGM0.03\Omega_{IGM} \sim 0.03.

Keywords

Cite

@article{arxiv.astro-ph/9701054,
  title  = {Lyman alpha absorption lines from mini pancakes},
  author = {Biman B. Nath},
  journal= {arXiv preprint arXiv:astro-ph/9701054},
  year   = {2009}
}

Comments

Latex with aaspp4.sty (25 pages), 6 figures, Accepted for publication in The Astrophysical Journal