Distances to Galactic high-velocity clouds. I. Cohen Stream, complex GCP, cloud g1
B.P. Wakker (Wisconsin), D.G. York (Chicago), R. Wilhelm (Texas Tech),, J.C. Barentine (Texas), P. Richter (Potsdam), T.C. Beers (Michigan State), Z., Ivezic (Washington), J.C. Howk (Notre Dame)
TL;DR
This study measures distances to several high-velocity and intermediate-velocity clouds around the Milky Way, revealing their origins and the Galaxy's ongoing gas accretion process.
Contribution
It provides the first direct distance brackets for multiple HVCs and IVCs using VLT observations, advancing understanding of their roles in Galactic evolution.
Findings
Distances to four HVCs and IVCs are now constrained.
Cohen Stream is likely infalling low-metallicity gas.
The Milky Way is actively accreting substantial gaseous material.
Abstract
The high- and intermediate-velocity interstellar clouds (HVCs/IVCs) are tracers of energetic processes in and around the Milky Way. Clouds with near-solar metallicity about one kpc above the disk trace the circulation of material between disk and halo (the Galactic Fountain). The Magellanic Stream consists of gas tidally extracted from the SMC, tracing the dark matter potential of the Milky Way. Several other HVCs have low-metallicity and appear to trace the continuing accretion of infalling intergalactic gas. These assertions are supported by the metallicities (0.1 to 1 solar) measured for about ten clouds in the past decade. Direct measurements of distances to HVCs have remained elusive, however. In this paper we present four new distance brackets, using VLT observations of interstellar \CaII H and K absorption toward distant Galactic halo stars. We derive distance brackets of 5.0 to…
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