期刊
ASTRONOMY & ASTROPHYSICS
卷 581, 期 -, 页码 -出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361/201425390
关键词
stars: Wolf-Rayet; stars: massive; stars: winds, outflows; stars: atmospheres; stars: fundamental parameters; stars: early-type
资金
- European Southern Observatory [091.C-0934, 093.D-0591]
- STFC [ST/H001921/1, ST/F002181/1] Funding Source: UKRI
Context. Oxygen sequence Wolf-Rayet (WO) stars are a very rare stage in the evolution of massive stars. Their spectra show strong emission lines of helium-burning products, in particular highly ionized carbon and oxygen. The properties of WO stars can be used to provide unique constraints on the (post-)helium burning evolution of massive stars, and their remaining lifetimes and the expected properties of their supernovae. Aims. We aim to homogeneously analyze the currently known presumed-single WO stars to obtain the key stellar and outflow properties and to constrain their evolutionary state. Methods. We use the line-blanketed non-local thermal equilibrium atmosphere code CMFGEN to model the X-Shooter spectra of the WO stars and to deduce the atmospheric parameters. We calculate dedicated evolutionary models to determine the evolutionary state of the stars. Results. The WO stars have extremely high temperatures that range from 150 kK to 210 kK, and very low surface helium mass fractions that range from 44% down to 14%. Their properties can be reproduced by evolutionary models with helium zero-age main sequence masses of M-He,M-ini = 15-25 M-circle dot that exhibit a fairly strong (a few times 10(-5) M-circle dot yr(-1)), homogeneous (f(c) > 0.3) stellar wind. Conclusions. WO stars represent the final evolutionary stage of stars with estimated initial masses of M-ini = 40-60 M-circle dot. They are post core-helium burning and predicted to explode as type Ic supernovae within a few thousand years.
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