Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 796, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/796/1/L8
Keywords
black hole physics; Galaxy: center; Galaxy: nucleus; infrared: stars; techniques: high angular resolution; techniques: photometric
Categories
Funding
- NSF [AST-0909218, AST-1412615]
- Galactic Center Board of Advisors
- Lauren Leichtman & Arthur Levine Chair in Astrophysics
- Preston Family Graduate Student Fellowship
- Janet Marott Student Travel Awards.
- Direct For Mathematical & Physical Scien
- Division Of Astronomical Sciences [1412615] Funding Source: National Science Foundation
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We report new observations of the Galactic Center source G2 from the W. M. Keck Observatory. G2 is a dusty red object associated with gas that shows tidal interactions as it nears its closest approach with the Galaxy's central black hole. Our observations, conducted as G2 passed through periapse, were designed to test the proposal that G2 is a 3 Earth mass gas cloud. Such a cloud should be tidally disrupted during periapse passage. The data were obtained using the Keck II laser guide star adaptive optics system (LGSAO) and the facility near-infrared camera (NIRC2) through the K' [2.1 mu m] and L' [3.8 mu m] broadband filters. Several results emerge from these observations: (1) G2 has survived its closest approach to the black hole as a compact, unresolved source at L', (2) G2's L' brightness measurements are consistent with those over the last decade, (3) G2's motion continues to be consistent with a Keplerian model. These results rule out G2 as a pure gas cloud and imply that G2 has a central star. This star has a luminosity of similar to 30 L-circle dot and is surrounded by a large (similar to 2.6 AU) optically thick dust shell. The differences between the L' and Br-gamma observations can be understood with a model in which L' and Br-gamma emission arises primarily from internal and external heating, respectively. We suggest that G2 is a binary star merger product and will ultimately appear similar to the B-stars that are tightly clustered around the black hole (the so-called S-star cluster).
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