Arcsecond-resolution submillimeter HCN imaging of the binary protostar IRAS 16293-2422

With the Submillimeter Array (SMA) we have made high angular resolution (similar to 100 = 160 AU) observations of the protobinary system IRAS 16293-2422 in the HCN (4-3), (HCN)-N-15 (4-3), and 354.5 GHz continuum emission. The HCN (4-3) line was also observed using the JCMT to supply missing short-spacing information. The submillimeter continuum emission is detected from the individual binary components of source A in the southeast and source B in the northwest, with a separation of similar to 5 ''. The optically thin (HCN)-N-15 (4-3) emission taken with the SMA has revealed a compact (similar to 500 AU) flattened structure (P.A. =-16 degrees) at source A. This compact structure shows a velocity gradient along the projected minor axis, which can be interpreted as an infalling gas motion. Our HCN image including the short-spacing information shows an extended (similar to 3000 AU) circumbinary envelope, as well as the compact structure at source A. A toy model consisting of a flattened structure with radial infall toward a 1M(circle dot) central star reproduces the HCN/(HCN)-N-15 position-velocity diagram along the minor axis of the (HCN)-N-15 emission. In the extended envelope there is also a northeast (blue) to southwest (red) velocity gradient across the binary alignment, which is likely to reflect gas motion in the swept-up dense gas associated with the molecular outflow from source A. Only a weak and narrow (similar to 2 km s-1) compact (HCN)-N-15 emission is associated with source B, where no clear molecular outflow is identified, suggesting the different evolutionary starges between sources A and B. Our study demonstrates the importance of adding short-spacing data to interferometer data in order to probe the detailed structure and kinematics of low-mass protostellar envelopes.