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The Parkes HI Survey of the Magellanic System | C. Bruens
; J. Kerp
; L. Staveley-Smith
; U. Mebold
; M.E. Putman
; R.F. Haynes
; P.M.W. Kalberla
; E. Muller
; M.D. Filipovic
; | Date: |
16 Nov 2004 | Subject: | astro-ph | Affiliation: | 2 and 5) ( Radioastronomisches Institut, University of Bonn, Australia Telescope National Facility, CSIRO, Department of Astronomy, University of Michigan, University of Western Sydney | Abstract: | We present the first fully and uniformly sampled, spatially complete HI survey of the entire Magellanic System with high velocity resolution, performed with the Parkes Telescope. The final data-cubes have an rms noise of sigma ~ 0.05 K and an effective angular resolution of 16 arcmin. The Large Magellanic Cloud (LMC) and the Small Magellanic Cloud (SMC) are associated with huge gaseous features with a total HI mass of M(HI) = 4.87 10^8 M_sun [d/55 kpc]^2, if all HI gas is at the same distance of 55 kpc. Approximately two thirds of this HI gas is located close to the Magellanic Clouds (Magellanic Bridge and Interface Region), and 25% of the HI gas is associated with the Magellanic Stream. The Leading Arm has a four times lower HI mass than the Magellanic Stream, corresponding to 6% of the total HI mass of the gaseous features. We have analyzed the velocity field of the Magellanic Clouds and their neighborhood introducing a LMC-standard-of-rest frame. The HI in the Magellanic Bridge shows low velocities relative to the Magellanic Clouds suggesting an almost parallel motion, while the gas in the Interface Region has significantly higher relative velocities indicating that this gas is leaving the Magellanic Bridge building up a new section of the Magellanic Stream. The clouds in the Magellanic Stream and the Leading Arm show significant differences, both in the column density distribution and in the shapes of the line profiles. The HI gas in the Magellanic Stream is more smoothly distributed than the gas in the Leading Arm. These morphological differences can be explained if the Leading Arm is at considerably lower z-heights and embedded in a higher pressure ambient medium. | Source: | arXiv, astro-ph/0411453 | Services: | Forum | Review | PDF | Favorites |
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