Astronomy and Astrophysics, volume 516, A57-57 (2010/6-2)
Methanol maps of low-mass protostellar systems. I. The Serpens molecular core.
KRISTENSEN L.E., VAN DISHOECK E.F., VAN KEMPEN T.A., CUPPEN H.M., BRINCH C., JORGENSEN J.K. and HOGERHEIJDE M.R.
Abstract (from CDS):
Methanol has a rich rotational spectrum providing a large number of transitions at sub-millimetre wavelengths from a range of energy levels in one single telescope setting, thus making it a good tracer of physical conditions in star-forming regions. Furthermore, it is formed exclusively on grain surfaces and is therefore a clean tracer of surface chemistry. Determining the physical and chemical structure of low-mass, young stellar objects, in particular the abundance structure of CH3OH, to investigate where and how CH3OH forms and how it is eventually released back to the gas phase. Observations of the Serpens molecular core have been performed at the James Clerk Maxwell Telescope using the array receiver, Harp-B. Maps over a 4.'5x5.4' region were made in a frequency window around 338 GHz, covering the 7K-6K transitions of methanol. Data are compared with physical models of each source based on existing sub-millimetre continuum data. Methanol emission is extended over each source, following the column density of H2 but showing up also particularly strongly around outflows. The rotational temperature is low, 15-20K, and does not vary with position within each source. None of the Serpens Class 0 sources show the high-K lines seen in several other Class 0 sources. The abundance is typically 10–9-10–8 with respect to H2 in the outer envelope, whereas ``jumps'' by factors of up to 102-103 inside the region where the dust temperature exceeds 100 K are not excluded. A factor of up to ∼103 enhancement is seen in outflow gas, consistent with previous studies. In one object, SMM4, the ice abundance has been measured to be ∼3x10–5 with respect to H2 in the outer envelope, i.e., a factor of 103 larger than the gas-phase abundance. Comparison with C18O J= 3-2 emission shows that strong CO depletion leads to a high gas-phase abundance of CH3OH not just for the Serpens sources, but also for a larger sample of deeply embedded protostars. The observations illustrate the large-scale, low-level desorption of CH3OH from dust grains, extending out to and beyond 7500AU from each source, a scenario which is consistent with non-thermal (photo-)desorption from the ice. The observations also illustrate the usefulness of CH3OH as a tracer of energetic input in the form of outflows, where methanol is sputtered from the grain surfaces. Finally, the observations provide further evidence of CH3OH formation through CO hydrogenation proceeding on grain surfaces in low-mass envelopes.
ISM: abundances - ISM: molecules - stars: formation - ISM: individual objects: Serpens
Fig. 1: [KVV2010] SMMN-W (Nos SMM1-S, SMM4-S, SMM4-W).
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