Halo Gas Cross Sections And Covering Fractions of MgII Absorption Selected Galaxies

Abstract

We examine halo gas cross sections and covering fractions, fc, of intermediate redshift MgII absorption selected galaxies. We computed statistical absorber halo radii, Rx, using current values of dN/dz and Schechter luminosity function parameters, and have compared these values to the distribution of impact parameters and luminosities from a sample of 37 galaxies. For equivalent widths Wr(2796) > 0.3 Ang, we find 43 < Rx < 88 kpc, depending on the lower luminosity cutoff and the slope, beta, of the Holmberg-like luminosity scaling, R Lbeta. The observed distribution of impact parameters, D, are such that several absorbing galaxies lie at D > Rx and several non-absorbing galaxies lie at D < Rx. We deduced fc must be less than unity and obtain a mean of <fc> ~ 0.5 for our sample. Moreover, the data suggest halo radii of MgII absorbing galaxies do not follow a luminosity scaling with beta in the range of 0.2-0.28, if fc= 1 as previously reported. However, provided fc~0.5, we find that halo radii can remain consistent with a Holmberg-like luminosity relation with beta ~ 0.2 and R* = Rx/sqrt(fc)= 110 kpc. No luminosity scaling (beta=0) is also consistent with the observed distribution of impact parameters if fc < 0.37. The data support a scenario in which gaseous halos are patchy and likely have non-symmetric geometric distributions about the galaxies. We suggest halo gas distributions may not be govern primarily by galaxy mass/luminosity but also by stochastic processes local to the galaxy.