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2013A&A...551A.116T - Astronomy and Astrophysics, volume 551A, 116-116 (2013/3-1)

High-pressure, low-abundance water in bipolar outflows. Results from a Herschel-WISH survey.


Abstract (from CDS):

Water is a potential tracer of outflow activity because it is heavily depleted in cold ambient gas and is copiously produced in shocks. We present a survey of the water emission in a sample of more than 20 outflows from low-mass young stellar objects with the goal of characterizing the physical and chemical conditions of the emitting gas. We used the HIFI and PACS instruments on board the Herschel Space Observatory to observe the two fundamental lines of ortho-water at 557 and 1670GHz. These observations were part of the ``Water In Star-forming regions with Herschel'' (WISH) key program, and have been complemented with CO and H2 data. The emission of water has a different spatial and velocity distribution from that of the J=1-0 and 2-1 transitions of CO. On the other hand, it has a similar spatial distribution to H2, and its intensity follows the H2 intensity derived from IRAC images. This suggests that water traces the outflow gas at hundreds of kelvins that is responsible for the H2 emission, and not the component at tens of kelvins typical of low-J CO emission. A warm origin of the water emission is confirmed by a remarkable correlation between the intensities of the 557 and 1670GHz lines, which also indicates that the emitting gas has a narrow range of excitations. A radiative transfer analysis shows that while there is some ambiguity in the exact combination of density and temperature values, the gas thermal pressure nT is constrained within less than a factor of 2. The typical nT over the sample is 4x109cm–3K, which represents an increase of 104 with respect to the ambient value. The data also constrain the water column density within a factor of 2 and indicate values in the sample between 2x1012 and 1014cm–2. When these values are combined with estimates of the H2 column density, the typical water abundance is only 3x10–7, with an uncertainty of a factor of 3. Our data challenge current C-shock models of water production through the combination of wing-line profiles, high gas compressions, and low abundances.

Abstract Copyright:

Journal keyword(s): stars: formation - ISM: abundances - ISM: molecules - ISM: jets and outflows

Simbad objects: 36

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