ALMA observations of the Galactic center with a spatial resolution of 2 %26apos;%26apos;.61 x 0 %26apos;%26apos;.97 resulted in the detection of 11 SiO (5-4) clumps of molecular gas within 0.6 pc (15 %26apos;%26apos;) of Sgr A*, interior to the 2 pc circumnuclear molecular ring. The three SiO (5-4) clumps closest to Sgr A* show the largest central velocities, similar to 150 km s(-1), and the broadest asymmetric line widths with full width zero intensity (FWZI) similar to 110-147 km s(-1). The remaining clumps, distributed mainly to the NE of the ionized mini-spiral, have narrow FWZI (similar to 18-56 km s(-1)). Using CARMA SiO (2-1) data, Large Velocity Gradient modeling of the SiO line ratios for the broad velocity clumps constrains the column density N(SiO) similar to 10(14) cm(-2), and the H-2 gas density nH(2) = (3-9) x 10(5) cm(-3) for an assumed kinetic temperature 100-200 K. The SiO clumps are interpreted as highly embedded protostellar outflows, signifying an early stage of massive star formation near Sgr A* in the last 10(4)-10(5) yr. Support for this interpretation is provided by the SiO (5-4) line luminosities and velocity widths which lie in the range measured for protostellar outflows in star-forming regions in the Galaxy. Furthermore, spectral energy distribution modeling of stellar sources shows two young stellar object candidates near SiO clumps, supporting in situ star formation near Sgr A*. We discuss the nature of star formation where the gravitational potential of the black hole dominates. In particular, we suggest that external radiative pressure exerted on self-shielded molecular clouds enhances the gas density, before the gas cloud becomes gravitationally unstable near Sgr A*. Alternatively, collisions between clumps in the ring may trigger gravitational collapse.

• 出版日期2013-4-20
• 单位西北大学