Astronomy and Astrophysics – Astrophysics – Solar and Stellar Astrophysics
Scientific paper
2010-03-17
Astronomy and Astrophysics
Astrophysics
Solar and Stellar Astrophysics
11 pages, 5 figures, accepted for publication in MNRAS
Scientific paper
We present high-sensitivity 2'x4' maps of the J=2-1 rotational lines of SiO, CO, 13CO and C18O, observed toward the filamentary Infrared Dark Cloud (IRDC) G035.39-00.33. Single-pointing spectra of the SiO J=2-1 and J=3-2 lines toward several regions in the filament, are also reported. The SiO images reveal that SiO is widespread along the IRDC (size >2 pc), showing two different components: one bright and compact arising from three condensations (N, E and S), and the other weak and extended along the filament. While the first component shows broad lines (linewidths of ~4-7 kms-1) in both SiO J=2-1 and SiO J=3-2, the second one is only detected in SiO J=2-1 and has narrow lines (~0.8 kms-1). The maps of CO and its isotopologues show that low-density filaments are intersecting the IRDC and appear to merge toward the densest portion of the cloud. This resembles the molecular structures predicted by flow-driven, shock-induced and magnetically-regulated cloud formation models. As in outflows associated with low-mass star formation, the excitation temperatures and fractional abundances of SiO toward N, E and S, increase with velocity from ~6 to 40 K, and from ~1E-10 to >1E-8 respectively, over a velocity range of ~7 kms-1. Since 8 micron sources, 24 micron sources and/or extended 4.5 micron emission are detected in N, E and S, broad SiO is likely produced in outflows associated with high-mass protostars. The excitation temperatures and fractional abundances of the narrow SiO lines, however, are very low (~9 K and ~1E-11, respectively), and consistent with the processing of interstellar grains by the passage of a shock with vs~12 kms-1. This emission could be generated i) by a large-scale shock, perhaps remnant of the IRDC formation process; ii) by decelerated or recently processed gas in large-scale outflows driven by 8 micron and 24 micron sources; or iii) by an undetected and widespread population of lower mass protostars. High-angular resolution observations are needed to disentangle between these three scenarios.
Butler Michael J.
Caselli Paola
Fontani Francesco
Hernandez Audra K.
Jiménez-Serra Izaskun
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