Methyl cyanide as tracer of bow shocks in L1157-B1

Context. L1157-mm is a low-mass protostar driving an outflow which is considered the proto-type of the so-called chemically active outflows. In particular, the blue-shifted lobe B1 stands out for its rich mm-wave spectrum. Aims. Our aim is to infer the physical conditions of the molecular gas within...

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Published in:Astronomy and astrophysics (Berlin) 2009-11, Vol.507 (2), p.L25-L28
Main Authors: Codella, C., Benedettini, M., Beltrán, M. T., Gueth, F., Viti, S., Bachiller, R., Tafalla, M., Cabrit, S., Fuente, A., Lefloch, B.
Format: Article
Language:English
Subjects:
Astronomy
Earth, ocean, space
Exact sciences and technology
ISM: individual objects: L1157
ISM: molecules
Sciences of the Universe
stars: formation
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Summary:Context. L1157-mm is a low-mass protostar driving an outflow which is considered the proto-type of the so-called chemically active outflows. In particular, the blue-shifted lobe B1 stands out for its rich mm-wave spectrum. Aims. Our aim is to infer the physical conditions of the molecular gas within L1157-B1. Methods. We carried out CH3CN(8K–7K) observations at 2 mm with the IRAM Plateau de Bure Interferometer to map L1157-B1. Results. The CH3CN image shows a clumpy structure superimposed to the classical B1 arch-like shape, displaying a unique continuous structure tracing the propagation of a large bow shock. The CH3CN spatial distribution well agrees with that of CH3OH, one of the most abundant species evaporated from dust grain mantles. Thanks to the present CH3CN observations at unprecedented spatial resolution, we determine for the first time the temperature distribution of the B1 bow shock. We obtain values between 57 and 132 K, with the highest temperature at the shock apex, thus confirming the association of CH3CN with gas affected by the passage of a shock wave. The $N_{\rm CH_3CN}$ column densities are $\simeq$8-40 $\times$ 1012 cm-2, depending on the position, leading to CH3CN/CH3OH abundance ratios $\simeq$0.2-1.3 $\times$ 10-3, i.e. values on average smaller than those found in hot-corinos. This suggests that a significant amount of CH3CN is formed in the gas phase: in the shocked L1157-B1 regions the CH3CN abundance may not have reached its maximum yet.
ISSN:0004-6361
1432-0746
1432-0756
DOI:10.1051/0004-6361/200913340