Intergalactic Hydrogen Clouds at Low-Redshift: Connections To Voids And Dwarf Galaxies

Abstract

We provide new post-COSTAR data on one sightline (Mrk 421) and updated data from another (I Zw 1) from our Hubble Space Telescope (HST) survey of intergalactic Lyman-alpha clouds located along sightlines to four bright quasars passing through well-mapped galaxy voids (16,000 km/s pathlength) and superclusters (18,000 km/s). We report two more definite detections of low-z Lyman-alpha clouds in voids: one at 3047 km/s (heliocentric) toward Mrk 421 and a second just beyond the Local Supercluster at 2861 km/s toward I Zw 1, confirming our earlier discovery of Lyman-alpha absorption clouds in voids (Stocke et al. 1995). We have now identified 10 definite and 1 probable low-redshift neutral hydrogen absorption clouds toward four targets, a frequency of approximately one absorber every 3400 km/s above 1012.7 cm-2 column density. Of these 10 absorption systems, 3 lie within voids; the probable absorber also lies in a void. Thus, the tendency of Lyman-alpha absorbers to ``avoid the voids'' is not as clear as we found previously. If the Lyman-alpha clouds are approximated as homogeneous spheres of 100 kpc radius, their masses are ~ 109 Msun (about 0.01 times that of bright L* galaxies) and they are 40 times more numerous, comparable to the density of dwarf galaxies and of low-mass halos in numerical CDM simulations. The Lyman-alpha clouds contribute a fraction Omegacl ~ 0.003 h75-1 to the closure density of the universe, comparable to that of luminous matter. These clouds probably require a substantial amount of non-baryonic dark matter for gravitational binding. They may represent extended haloes of low- mass protogalaxies which have not experienced significant star formation or low-mass dwarf galaxies whose star formation ceased long ago, but blew out significant gaseous material.

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