The Discovery of Radio Stars within 10 arcseconds of Sgr A* at 7mm
F. Yusef-Zadeh, D. A. Roberts, H. Bushouse, M. Wardle, W. Cotton, M., Royster, and G. van Moorsel
TL;DR
This study uses high-resolution radio and infrared observations to identify and analyze radio stars near Sgr A*, revealing their properties, origins, and implications for recent star formation in the Galactic Center.
Contribution
First detection of radio stars within 10 arcseconds of Sgr A* at 7mm, providing precise registration between radio and IR frames and evidence for recent star formation.
Findings
Identified 41 radio sources with IR counterparts near Sgr A*.
Measured stellar wind mass-loss rates of 0.8-5x10^{-5} solar masses per year.
Argued that IRS 13N members are young stellar objects, indicating recent star formation.
Abstract
Very Large Array observations of the Galactic Center at 7 mm have produced an image of the 30 arcseconds surrounding Sgr A* with a resolution of 82x42 milliarcseconds (mas). A comparison with IR images taken simultaneously with the Very Large Telescope (VLT) identifies 41 radio sources with L-band (3.8 microns) stellar counterparts. The well-known young, massive stars in the central Sgr A* cluster (e.g., IRS 16C, IRS 16NE, IRS 16SE2, IRS 16NW, IRS 16SW, AF, AFNW, IRS 34W and IRS 33E) are detected with peak flux densities between 0.2 and 1.3 mJy. The origin of the stellar radio emission in the central cluster is discussed in terms of ionized stellar winds with mass-loss rates in the range 0.8-5x10^{-5} solar mass per year. Radio emission from eight massive stars is used as a tool for registration between the radio and infrared frames with mas precision within a few arcseconds of Sgr A*.…
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