First detection of CO lines in a water fountain star

doi:10.1051/0004-6361:200810303

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Title:		First detection of CO lines in a water fountain star
Authors:		He, J. H.; Imai, H.; Hasegawa, T. I.; Campbell, S. W.; Nakashima, J.
Affiliation:		AA(Institute of Astronomy and Astrophysics, Academia Sinica, PO Box 23-141, Taipei 10617, Taiwan ; National Astronomical Observatories/Yunnan Observatory, Chinese Academy of Sciences, PO Box 110, Kunming, Yunnan Province 650011, PR China), AB(Department of Physics, Faculty of Science, Kagoshima University, 1-21-35 Korimoto, Kagoshima 890-0065, Japan), AC(Institute of Astronomy and Astrophysics, Academia Sinica, PO Box 23-141, Taipei 10617, Taiwan), AD(Institute of Astronomy and Astrophysics, Academia Sinica, PO Box 23-141, Taipei 10617, Taiwan; Centre for Stellar and Planetary Astrophysics, School of Mathematical Sciences, Monash University, 3800 Melbourne, Australia), AE(Department of Physics, University of Hong Kong, Pokfulam Road, Hong Kong)
Publication:		Astronomy and Astrophysics, Volume 488, Issue 2, 2008, pp.L21-L24 (A&A Homepage)
Publication Date:		09/2008
Origin:		EDP Sciences
Keywords:		stars: AGB and post-AGB, stars: circumstellar matter, stars: evolution, stars: individual: IRAS 16342-3814, stars: winds, outflows, radio lines: stars
DOI:		10.1051/0004-6361:200810303
Bibliographic Code:		2008A&A...488L..21H

Abstract

Context: Water fountain stars are very young post-AGB stars with high velocity water maser jets. They are the best objects in which to study the onset of bipolar jets from evolved stars due to their young dynamical ages. However, none of them has been observed in any thermal lines.
Aims: We aim to search for CO lines in the water fountain star IRAS 16342-3814 and investigate the properties of its thermal gas.
Methods: The proximity, peculiar stellar velocity and high Galactic latitude of IRAS 16342-3814 make a single dish observation possible. We use the Arizona Radio Observatory 10 m telescope to observe the CO J = 2-1 line and compare the line parameters with those of masers.
Results: We report the detection of ¹²CO and ¹³CO J = 2-1 lines from IRAS 16342-3814. The inferred ¹²CO mass loss rate is an order of magnitude lower than the infrared and OH mass loss rates, indicating a very cold and thick O-rich circumstellar envelope around the star. We also find a ¹²CO expansion velocity of V_exp= 46 ± 1 km s^-1 that is too high for an AGB wind and confirm the systemic velocity of 44±1 km s^-1. In addition we measure a very low ¹²CO/¹³CO line ratio of 1.7.
Conclusions: The first detection of CO lines has provided a new way to investigate water fountain stars. Given the high expansion velocity of the CO gas and its relation to maser velocities, we infer that the CO emission region is co-located with the OH mainline masers in the warm base of the optical bipolar lobes, while the high velocity OH 1612 MHz and H2O masers are located in the side walls and at the farthest ends of the bipolar lobes, respectively. Further observations are highly desirable to understand the very low ¹²CO/¹³CO line ratio.

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