The Nature of Weak MgII Absorbing Structures

We consider geometries and possible physical models for weak low ionization absorbers based on the relative incidence of low and high ionization absorption systems. We found a total of 16 metal-line systems, with low and/or high ionization absorption detected in our survey of weak low ionization absorption systems from the archive of HST/STIS data. The weak low ionization absorbers trace an abundant population of metal-enriched regions (close to solar metallicity). Generally, models show that these systems have a ~10pc region of higher density gas and a ~1kpc region of lower density phase of higher ionization absorption. We compare absorption systems detected in low and/or high ionization gas and find the following: 1) All but 1 of the 10 weak low ionization systems have a related high ionization phase. In 3 cases the high ionization gas has only a single component, kinematically centered on the low ionization absorption, and in the other 6 cases there are additional high ionization components offset in velocity. The system, toward quasar 3C 273, do not have a high ionization cloud; 2) There are just 6 systems with only a high ionization phase as compared to the 9 systems with both low and high ionization phases; 3) The high ionization absorption in weak low ionization systems is, on average, stronger than in systems with only high ionization absorption; 4) The kinematic structure of the high ionization in weak low ionization systems is similar to that in high ionization only systems. We find that filamentary and sheetlike geometries are favored, due to the relatively small observed cross-section of high ionization only systems. Although low ionization absorbers are not closely associated with luminous galaxies, they arise in their immediate environments within the cosmic web.