Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-11-17
Astrophys.J.640:270-281,2006
Astronomy and Astrophysics
Astrophysics
16 pages, 7 figures (2 in color), 1 table. Accepted for publication in ApJ
Scientific paper
10.1086/499914
We have used infrared and radio observations to search for a dwarf galaxy associated with the high-velocity cloud (HVC) known as Complex H. Complex H is a large (> 400 deg^2) and probably nearby (d = 27 kpc) HVC whose location in the Galactic plane has hampered previous investigations of its stellar content. The HI mass of the cloud is 2.0 x 10^7 (d/27 kpc)^2 Msun, making Complex H one of the most massive HVCs if its distance is > ~20 kpc. Virtually all similar HI clouds in other galaxy groups are associated with LSB dwarf galaxies. We selected mid-IR MSX sources in the direction of Complex H that appeared likely to be star-forming regions and observed them at the wavelength of the CO 1-0 transition. 59 of the 60 observed sources show emission at Milky Way velocities, and we detected no emission at velocities consistent with that of Complex H. We use these observations to set an upper limit on the ongoing star formation rate in the HVC of < 5 x 10^-4 Msun yr^-1. We also searched the 2MASS database for evidence of any dwarf-galaxy-like stellar population in the direction of the HVC and found no trace of a distant red giant population, with an upper limit on the stellar mass of ~10^6 Msun. Given the lack of evidence for either current star formation or an evolved population, we conclude that Complex H cannot be a dwarf galaxy with properties similar to those of known dwarfs. Complex H is therefore one of the most massive known HI clouds without stars. If Complex H is self-gravitating, then it is one of the few known dark galaxy candidates. These findings may offer observational support for the idea that the Cold Dark Matter substructure problem is related to the difficulty of forming stars in low-mass dark matter halos; alternatively, Complex H could be an example of a cold accretion flow onto the Milky Way. [slightly abridged]
Blitz Leo
Cohen Martin
Cole Andrew A.
Simon Joshua D.
Weinberg Martin D.
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