Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-01-30
Astron.Astrophys. 418 (2004) 185-202
Astronomy and Astrophysics
Astrophysics
Accepted for publication in A&A, 18 pages, 18 figures
Scientific paper
10.1051/0004-6361:20035769
High angular resolution H2CO 218 GHz line observations have been carried out toward the low-mass protostars IRAS 16293-2422 and L1448-C using the Owens Valley Millimeter Array at ~2" resolution. Simultaneous 1.37 mm continuum data reveal extended emission which is compared with that predicted by model envelopes constrained from single-dish data. For L1448-C the model density structure works well down to the 400 AU scale to which the interferometer is sensitive. For IRAS 16293-2422, a known proto-binary object, the interferometer observations indicate that the binary has cleared much of the material in the inner part of the envelope, out to the binary separation of ~800 AU. The morphology and velocity structure of the H2CO array data have been used to investigate whether the abundance enhancements inferred from single-dish modelling are due to thermal evaporation of ices or due to liberation of the ice mantles by shocks in the inner envelope. A scenario in which the H2CO abundance drops in the cold dense part of the envelope where CO is frozen out but is undepleted in the outermost region provides good fits to the single-dish and interferometer data on short baselines for both sources. Emission on the longer baselines is best reproduced if the H2CO abundance is increased by about an order of magnitude from ~1E-10 to ~1E-9 in the inner parts of the envelope due to thermal evaporation when the temperature exceeds ~50K. Other scenarios, including weak outflow-envelope interactions and photon heating of the envelope, are discussed and predictions for future generation interferometers are presented, illustrating their potential in distinguishing these competing scenarios.
Blake Geoffrey A.
Jorgensen Jes K.
Schoeier Fredrik L.
van Dishoeck Ewine F.
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