Submillimeter arcsecond-resolution mapping of the highly collimated protostellar jet HH 211

Abstract

We have mapped the protostellar jet HH 211 in 342 GHz continuum, SiO (J=8-7), and CO (J=3-2) emission at 1 resolution with the Submillimeter Array (SMA). Thermal dust emission is seen in continuum at the center of the jet, tracing an envelope and a possible optically thick compact disk (with a size < 130 AU) around the protostar. A knotty jet is seen in CO and SiO as in 2, but extending closer to the protostar. It consists of a chain of knots on each side of the protostar, with an interknot spacing of 2-3 or 600-900 AU and the innermost pair of knots at only 17 or 535 AU from the protostar. These knots likely trace unresolved internal (bow) shocks (i.e., working surfaces) in the jet, with a velocity range up to 25 . The two-sided mass-loss rate of the jet is estimated to be (0.7-2.8)× 10-6 yr-1. The jet is episodic, precessing, and bending. A velocity gradient is seen consistently across two bright SiO knots (BK3 and RK2) perpendicular to the jet axis, with 1.50.8 at 3015 AU, suggesting a presence of a jet rotation. The launching radius of the jet, derived from the potential jet rotation, is 0.15-0.06 AU in the inner disk.