Lyman alpha absorption lines from mini pancakes
Abstract
[Abridged abstract:] Recent numerical simulations show that many absorption lines of column densities cm 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 , where is the collapse redshift. The 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 cm, high temperature tend to wash out the signatures of bulk motion. The analytical modeling of mini pancakes associated with forest lines --- with cm---gives the corresponding mass scales. It is shown here that, for typical values of cosmological parameters, absorption lines with cm correspond to structures with baryonic mass of M with an overdensity of at . The value of can change by a factor in the course of evolution of the pancake in time. It is also shown that there is an upper limit to 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 lines with cm, for and .
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