A wind-blown bubble in the Central Molecular Zone cloud G0.253+0.016
Abstract
G0.253+0.016, commonly referred to as "the Brick" and located within the Central Molecular Zone, is one of the densest (≈103-4 cm-3) molecular clouds in the Galaxy to lack signatures of widespread star formation. We set out to constrain the origins of an arc-shaped molecular line emission feature located within the cloud. We determine that the arc, centred on \l0,b0\=\0.248, 0.18\, has a radius of 1.3 pc and kinematics indicative of the presence of a shell expanding at 5.2+2.7-1.9 km s-1. Extended radio continuum emission fills the arc cavity and recombination line emission peaks at a similar velocity to the arc, implying that the molecular and ionised gas are physically related. The inferred Lyman continuum photon rate is N LyC=1046.0-1047.9 photons s-1, consistent with a star of spectral type B1-O8.5, corresponding to a mass of ≈12-20 M. We explore two scenarios for the origin of the arc: i) a partial shell swept up by the wind of an interloper high-mass star; ii) a partial shell swept up by stellar feedback resulting from in-situ star formation. We favour the latter scenario, finding reasonable (factor of a few) agreement between its morphology, dynamics, and energetics and those predicted for an expanding bubble driven by the wind from a high-mass star. The immediate implication is that G0.253+0.016 may not be as quiescent as is commonly accepted. We speculate that the cloud may have produced a 103 M star cluster 0.4 Myr ago, and demonstrate that the high-extinction and stellar crowding observed towards G0.253+0.016 may help to obscure such a star cluster from detection.
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