H. Hirashita, A. Ferrara, K. Wada, P. Richter
Published 2003-03-21Version 1
To interpret H_2 quasar absorption line observations in Damped Ly-alpha clouds (DLAs), we model the H_2 spatial distribution within a DLA. Based on numerical simulations of disk structures with parameters similar to those derived for such absorbers, we calculate the H_2 distribution as a function of ultraviolet background (UVB) intensity and dust-to-gas ratio. For typical values of these two quantities we find that the area in which the H_2 fraction exceeds 10^{-6} (typical observational detection limit) only covers $\la 10$% of the disk surface, i.e. H_2 has a very inhomogeneous, clumpy distribution even at these low abundance levels. This explains the relative paucity of H_2 detections in DLAs. We also show the dependence of the covering fraction of H_2 on dust-to-gas ratio and UVB intensity and we comment on the physics governing the H_2 chemical network at high redshift.
Comments: 5 pages, 3 figures, 1 table, accepted by MNRAS Letter
Journal: Mon.Not.Roy.Astron.Soc. 341 (2003) L18
Molecular hydrogen in damped Ly-alpha systems: clues to interstellar physics at high-redshift
Cyclic Changes of Dust-to-Gas Ratio
New detections of Mn, Ti and Mg in damped Ly-alpha systems: Toward reconciling the dust/nucleosynthesis degeneracy
