Intermediate- and high-velocity clouds in the Milky Way I: covering factors and vertical heights

Abstract

Intermediate- and high-velocity clouds (IVCs, HVCs) are a potential source of fuel for star formation in the Milky Way (MW), but their origins and fates depend sensitively on their distances. We search for IVC and HVC in HST high-resolution ultraviolet spectra of 55 halo stars at vertical heights |z| 1 kpc. We show that IVCs (40 ≤ |v LSR| <90 km/s) have a high detection rate - the covering factor, fc - that is about constant (fc =0.90 0.04) from z=1.5 to 14 kpc, implying IVCs are essentially confined to |z| 1.5 kpc. For the HVCs (90 ≤ |v LSR| 170 km/s), we find fc increases from fc 0.14 0.10 at |z| 2-3 kpc to fc =0.60 0.15 at 5 |z| 14 kpc, the latter value being similar to that found towards QSOs. In contrast, the covering factor of very high-velocity clouds (VHVCs, |v LSR| 170 km/s) is fc<4\% in the stellar sample compared to 20\% in a QSO sample, implying these clouds must be at d 10-15 kpc (|z| 10 kpc). Gas clouds with |v LSR|>40 km/s at |b| 15 have therefore |v LSR| decreasing with decreasing |z|. Assuming each feature originates from a single cloud, we derive scale-heights of 1.0 0.3 and 2.8 0.3 kpc for the IVCs and HVCs, respectively. Our findings provide support to the "rain" and galactic fountain models. In the latter scenario, VHVCs may mostly serve as fuel for the MW halo. In view of their locations and high covering factors, IVCs and HVCs are good candidates to sustain star formation in the MW.