000002167 001__ 2167
000002167 005__ 20160706145728.0
000002167 0247_ $$2DOI$$a10.1051/0004-6361/201322578
000002167 037__ $$aASTROimport-324
000002167 100__ $$aKhouri, T.
000002167 245__ $$aThe wind of W Hydrae as seen by Herschel. I. The CO envelope
000002167 260__ $$c2014
000002167 520__ $$aContext. Asymptotic giant branch (AGB) stars lose their envelopes by means of a stellar wind whose driving mechanism is not understood well. Characterizing the composition and thermal and dynamical structure of the outflow provides constraints that are essential for understanding AGB evolution, including the rate of mass loss and isotopic ratios.  Aims: We characterize the CO emission from the wind of the low mass-loss rate oxygen-rich AGB star W Hya using data obtained by the HIFI, PACS, and SPIRE instruments on board the Herschel Space Observatory and ground-based telescopes. 12CO and 13CO lines are used to constrain the intrinsic 12C/13C ratio from resolved HIFI lines.  Methods: We combined a state-of-the-art molecular line emission code and a dust continuum radiative transfer code to model the CO lines and the thermal dust continuum.  Results: The acceleration of the outflow up to about 5.5 km s-1 is quite slow and can be represented by a ß-type velocity law with index ß = 5. Beyond this point, acceleration up the terminal velocity of 7 km s-1 is faster. Using the J = 10-9, 9-8, and 6-5 transitions, we find an intrinsic 12C/13C ratio of 18 ± 10 for W Hya, where the error bar is mostly due to uncertainties in the 12CO abundance and the stellar flux around 4.6 µm. To match the low-excitation CO lines, these molecules need to be photo-dissociated at ~500 stellar radii. The radial dust emission intensity profile of our stellar wind model matches PACS images at 70 µm out to 20'' (or 800 stellar radii). For larger radii the observed emission is substantially stronger than our model predicts, indicating that at these locations there is extra material present.  Conclusions: The initial slow acceleration of the wind may imply inefficient dust formation or dust driving in the lower part of the envelope. The final injection of momentum in the wind might be the result of an increase in the opacity thanks to the late condensation of dust species. The derived intrinsic isotopologue ratio for W Hya is consistent with values set by the first dredge-up and suggestive of an initial mass of 2 M? or more. However, the uncertainty in the isotopologic ratio is large, which makes it difficult to set reliable limits on W Hya's main-sequence mass. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.
000002167 700__ $$ade Koter, A.
000002167 700__ $$aDecin, L.
000002167 700__ $$aWaters, L. B. F. M.
000002167 700__ $$aLombaert, R.
000002167 700__ $$aRoyer, P.
000002167 700__ $$aSwinyard, B.
000002167 700__ $$aBarlow, M. J.
000002167 700__ $$aAlcolea, J.
000002167 700__ $$aBlommaert, J. A. D. L.
000002167 700__ $$aBujarrabal, V.
000002167 700__ $$aCernicharo, J.
000002167 700__ $$aGroenewegen, M. A. T.
000002167 700__ $$aJusttanont, K.
000002167 700__ $$aKerschbaum, F.
000002167 700__ $$aMaercker, M.
000002167 700__ $$aMarston, A.
000002167 700__ $$aMatsuura, M.
000002167 700__ $$aMelnick, G.
000002167 700__ $$aMenten, K. M.
000002167 700__ $$aOlofsson, H.
000002167 700__ $$aPlanesas, P.
000002167 700__ $$aPolehampton, E.
000002167 700__ $$aPosch, T.
000002167 700__ $$aSchmidt, M.
000002167 700__ $$aSzczerba, R.
000002167 700__ $$aVandenbussche, B.
000002167 700__ $$aYates, J.
000002167 773__ $$cA5$$pAstronomy and Astrophysics$$v561$$y2014
000002167 85642 $$ahttp://esoads.eso.org/abs/2014A%26A...561A...5K
000002167 905__ $$apublished in
000002167 980__ $$aREFERD