TY - JOUR
T1 - Milky way disk-halo transition in hi
T2 - Properties of the cloud population
AU - Alyson Ford, H.
AU - Lockman, Felix J.
AU - McClure-Griffiths, N. M.
PY - 2010/10/10
Y1 - 2010/10/10
N2 - Using 21 cm Hi observations from the Parkes Radio Telescope's Galactic All-Sky Survey, we measure 255 Hi clouds in the lower Galactic halo that are located near the tangent points at 16.°9 ≤ l ≤ 35.°3 and |b| ≲ 20°. The clouds have a median mass of 700M⊙ and a median distance from the Galactic plane of 660 pc. This first Galactic quadrant (QI) region is symmetric to a region of the fourth quadrant (QIV) studied previously using the same data set and measurement criteria. The properties of the individual clouds in the two quadrants are quite similar suggesting that they belong to the same population, and both populations have a line-of-sight (LOS) cloud-cloud velocity dispersion of σcc ≈ 16 km s-1. However, there are three times as many disk-halo clouds at the QI tangent points and their scale height, at h = 800 pc, is twice as large as in QIV. Thus, the observed LOS random cloud motions are not connected to the cloud scale height or its variation around the Galaxy. The surface density of clouds is nearly constant over the QI tangent point region but is peaked near R ∼ 4 kpc in QIV. We ascribe all of these differences to the coincidental location of the QI region at the tip of the Milky Way's bar, where it merges with a major spiral arm. The QIV tangent point region, in contrast, covers only a segment of a minor spiral arm. The disk-halo Hi cloud population is thus likely tied to and driven by large-scale star formation processes, possibly through the mechanism of supershells and feedback.
AB - Using 21 cm Hi observations from the Parkes Radio Telescope's Galactic All-Sky Survey, we measure 255 Hi clouds in the lower Galactic halo that are located near the tangent points at 16.°9 ≤ l ≤ 35.°3 and |b| ≲ 20°. The clouds have a median mass of 700M⊙ and a median distance from the Galactic plane of 660 pc. This first Galactic quadrant (QI) region is symmetric to a region of the fourth quadrant (QIV) studied previously using the same data set and measurement criteria. The properties of the individual clouds in the two quadrants are quite similar suggesting that they belong to the same population, and both populations have a line-of-sight (LOS) cloud-cloud velocity dispersion of σcc ≈ 16 km s-1. However, there are three times as many disk-halo clouds at the QI tangent points and their scale height, at h = 800 pc, is twice as large as in QIV. Thus, the observed LOS random cloud motions are not connected to the cloud scale height or its variation around the Galaxy. The surface density of clouds is nearly constant over the QI tangent point region but is peaked near R ∼ 4 kpc in QIV. We ascribe all of these differences to the coincidental location of the QI region at the tip of the Milky Way's bar, where it merges with a major spiral arm. The QIV tangent point region, in contrast, covers only a segment of a minor spiral arm. The disk-halo Hi cloud population is thus likely tied to and driven by large-scale star formation processes, possibly through the mechanism of supershells and feedback.
KW - Galaxies: Structure
KW - Galaxy: Halo
KW - ISM: Clouds
KW - ISM: Structure
KW - Radio lines: ISM
UR - http://www.scopus.com/inward/record.url?scp=78149356751&partnerID=8YFLogxK
U2 - 10.1088/0004-637X/722/1/367
DO - 10.1088/0004-637X/722/1/367
M3 - Article
SN - 0004-637X
VL - 722
SP - 367
EP - 369
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1
ER -