Studying the Outflow-Core Interaction with ALMA Cycle 1 Observations of the HH 46/47 Molecular Outflow [SSA]

We present ALMA Cycle 1 observations of the HH 46/47 molecular outflow using combined 12m array and 7m array observations. We use 13CO and C18O emission to correct for the 12CO optical depth, to accurately estimate the outflow mass, momentum and kinetic energy. Applying the optical depth correction increases the mass estimate by a factor of 14, the momentum by a factor of 6, and the kinetic energy by a factor of about 2. The new 13CO(1-0) and C18O(1-0) data also allow us to trace denser and slower outflow material than that traced by 12CO. These species are only detected within about 1~2 km/s from the cloud velocity. The cavity wall of the red lobe appears at very low velocities (~0.2 km/s). Combing the material traced only by 13CO and C18O, the measured total mass of the CO outflow is 1.4 Msun, the total momentum is 1.7 Msun km/s and the total energy is 4.7e43 erg, assuming Tex=15 K. The improved angular resolution and sensitivity in 12CO reveal more details of the outflow structure. Specifically, we find that the outflow cavity wall is composed of multiple shells entrained in a series of jet bow-shock events. The outflow kinetic energy distribution shows that even though the red lobe is mainly entrained by jet bow-shocks, more outflow energy is being deposited into the cloud at the base of the outflow cavity rather than around the heads of the bow shocks. The estimated outflow mass, momentum, and energy indicate that the outflow is capable to disperse the parent core within the typical lifetime of the embedded phase of a low-mass protostar, and regulating a core-to-star efficiency of 1/4~1/3. The 13CO and C18O emission also trace a circumstellar envelope with rotation and infall motions. In CS, we found possible evidence for a slowly-moving rotating outflow, which we believe is entrained not only poloidally but also toroidally by a wind launched from relatively large radii on the disk.

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Y. Zhang, H. Arce, D. Mardones, et. al.
Tue, 9 Feb 16
25/63

Comments: Submitted to ApJ. Comments are welcome. 26 pages, 20 figures