Massive Star Formation in the Molecular Ring Orbiting the Black Hole at the Galactic Center

TL;DR

This study provides evidence of early-stage massive star formation in the molecular ring around the Galactic Center's black hole, using maser detections and kinematic analysis of molecular gas.

Contribution

First detection of class I methanol masers indicating early massive star formation in the Galactic Center's molecular ring.

Findings

Detection of water maser and methanol maser lines in the molecular ring.

Kinematic signatures of protostellar outflows from young massive stars.

Presence of protostellar jets and shocked molecular hydrogen near methanol sources.

Abstract

A ring of dense molecular gas extending 2-7 pc orbits the supermassive black hole Sgr A* at the center of our Galaxy. Using the Green Bank Telescope, we detected water maser lines and both narrow (0.35 km/s) and broad (30 - 50 km/s) methanol emission from the molecular ring. Two of the strongest methanol lines at 44 GHz are confirmed as masers by interferometric observations. These class I methanol masers are collisionally excited and are signatures of early phases of massive star formation in the disk of the Galaxy, suggesting that star formation in the molecular ring is in its early phase. Close inspection of the kinematics of the associated molecular clumps in the HCN (J=1-0) line reveals broad red-shifted wings indicative of disturbance by protostellar outflows from young (few times 10^4 yr), massive stars embedded in the clumps. The thermal methanol profile has a similar shape, with a narrow maser line superimposed on a broad, red-shifted wing. Additional evidence for the presence of young massive protostars is provided by shocked molecular hydrogen and a number of striking ionized and molecular linear filaments in the vicinity of methanol sources suggestive of 0.5-pc scale protostellar jets. Given that the circumnuclear molecular ring is kinematically unsettled and thus is likely be the result of a recent capture, the presence of both methanol emission and broad, red-shifted HCN emission suggests that star formation in the circumnuclear ring is in its infancy.