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Plewa, P. M.; Gillessen, S.; Pfuhl, O.; Eisenhauer, F.; Genzel, R.; Burkert, A.; Dexter, J.; Habibi, M.; George, E.; Ott, T.; Waisberg, I. und Fellenberg, S. von (2017): The Post-pericenter Evolution of the Galactic Center Source G2. In: Astrophysical Journal, Bd. 840, Nr. 1, 50

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Abstract

In early 2014, the fast-moving near-infrared source G2 reached its closest approach to the supermassive black hole Sgr. A* in the Galactic center. We report on the evolution of the ionized gaseous component and the dusty component of G2 immediately after this event, revealed by new observations obtained in 2015 and 2016 with the SINFONI integral field spectrograph and the NACO imager at the ESO. VLT. The spatially resolved dynamics of the Br. line emission can be accounted for by the ballistic motion and tidal shearing of a test-particle cloud that has followed a highly eccentric Keplerian orbit around the black hole for the last 12 years. The non-detection of a drag force or any strong hydrodynamic interaction with the hot gas in the inner accretion zone limits the ambient density to less than a few 10(3)cm(-3) at the distance of closest approach (1500 R-s), assuming G2 is a spherical cloud moving through a stationary and homogeneous atmosphere. The dust continuum emission is unresolved in L'-band, but stays consistent with the location of the Br. emission. The total luminosity of the Br. and L' emission has remained constant to within the measurement uncertainty. The nature and origin of G2 are likely related to that of the precursor source G1, since their orbital evolution is similar, though not identical. Both objects are also likely related to a trailing tail structure, which is continuously connected to G2 over a large range in position and radial velocity.

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