The SOMA Atomic Outflow Survey. I. An Atomic OI and Highly Ionized OIII Outflow from Massive Protostar G11.94-00.62

Abstract

Massive stars regulate galaxy evolution and star formation through their physical and chemical feedback, but their formation remains poorly understood. Accretion-powered outflows provide important diagnostics of massive star formation. We present first results from the SOMA Atomic Outflow Survey, a far-infrared massive star formation survey using the FIFI-LS instrument on SOFIA. We report detection of \ 3P2→3P1 emission at 52 \ from the massive protostar G11.94-0.62, tracing highly ionized gas. We also detect \ 3P2→3P1 and 3P1→3P0 at 63 and 145 \ tracing atomic gas, as well as CO J=14→13 at 186 \ from highly excited molecular gas. The \ and \ lines exhibit large line widths (200 and 40-80 , respectively) and their morphologies are consistent with a wide-angle bipolar outflow. The properties of molecular tracers (12CO, 13CO, C18O, H2CO, and CH3OH) observed with ALMA support this interpretation. Ionized nebula and PDR modeling imply an ionized outflow mass flux of 8×10-5\:M yr-1 and an atomic outflow mass flux of 5×10-6\:M yr-1, while the molecular outflow traced by CO has an implied mass flux of 3×10-4\:M yr-1. The mass and momentum flux in the ionized outflow are consistent with the primary disk wind, while the molecular component is mainly swept-up, secondary outflow gas. We also observe G11.94-0.62 with the LBT in the near-infrared, potentially tracing the base of wide-angle outflow cavities. SED modeling implies a protostellar mass m* = 22.4+21-11\:M, while the \ emission implies m*30\:M and that the protostar is in the final stages of its accretion.