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Water cooling of shocks in protostellar outflows Herschel-PACS map of L1157

B. Nisini ; M. Benedettini ; C. Codella ; T. Giannini ; René Liseau (Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik) ; D. Neufeld ; M. Tafalla ; E. F. van Dishoeck ; R. Bachiller ; A. Baudry ; A. O. Benz ; E. Bergin ; Per Bjerkeli (Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik) ; G. Blake ; S. Bontemps ; J. Braine ; S. Bruderer ; P. Caselli ; J. Cernicharo ; F. Daniel ; P. Encrenaz ; A. M. di Giorgio ; C. Dominik ; S. Doty ; M. Fich ; A. Fuente ; J. R. Goicoechea ; T. de Graauw ; F. Helmich ; G. Herczeg ; F. Herpin ; M. Hogerheijde ; T. Jacq ; D. Johnstone ; J. Jorgensen ; M. Kaufman ; L. Kristensen ; B. Larsson ; D. Lis ; M. Marseille ; C. McCoey ; G. Melnick ; Michael Olberg (Institutionen för rymd- och geovetenskap, Onsala rymdobservatorium) ; B. Parise ; J. Pearson ; R. Plume ; C. Risacher ; J. Santiago ; P. Saraceno ; R. Shipman ; T. A. van Kempen ; R. Visser ; S. Viti ; S. Wampfler ; F. Wyrowski ; F. van der Tak ; U. A. Yildiz ; B. Delforge ; J. Desbat ; W. A. Hatch ; I. Peron ; R. Schieder ; J. A. Stern ; D. Teyssier ; N. Whyborn
Astronomy and Astrophysics (0004-6361). Vol. 518 (2010), Article Number: L120,
[Artikel, refereegranskad vetenskaplig]

Context. The far-IR/sub-mm spectral mapping facility provided by the Herschel-PACS and HIFI instruments has made it possible to obtain, for the first time, images of H2O emission with a spatial resolution comparable to ground based mm/sub-mm observations. Aims. In the framework of the Water In Star-forming regions with Herschel (WISH) key program, maps in water lines of several outflows from young stars are being obtained, to study the water production in shocks and its role in the outflow cooling. This paper reports the first results of this program, presenting a PACS map of the o-H2O 179 mu m transition obtained toward the young outflow L1157. Methods. The 179 mu m map is compared with those of other important shock tracers, and with previous single-pointing ISO, SWAS, and Odin water observations of the same source that allow us to constrain the H2O abundance and total cooling. Results. Strong H2O peaks are localized on both shocked emission knots and the central source position. The H2O 179 mu m emission is spatially correlated with emission from H-2 rotational lines, excited in shocks leading to a significant enhancement of the water abundance. Water emission peaks along the outflow also correlate with peaks of other shock-produced molecular species, such as SiO and NH3. A strong H2O peak is also observed at the location of the proto-star, where none of the other molecules have significant emission. The absolute 179 mu m intensity and its intensity ratio to the H2O 557 GHz line previously observed with Odin/SWAS indicate that the water emission originates in warm compact clumps, spatially unresolved by PACS, having a H2O abundance of the order of 10(-4). This testifies that the clumps have been heated for a time long enough to allow the conversion of almost all the available gas-phase oxygen into water. The total H2O cooling is similar to 10(-1) L-circle dot, about 40% of the cooling due to H-2 and 23% of the total energy released in shocks along the L1157 outflow.

Nyckelord: stars: formation, ISM: jets and outflows, ISM: molecules, class-0 sources, emission, swas, gas

Denna post skapades 2010-12-07. Senast ändrad 2015-06-23.
CPL Pubid: 130254


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