期刊
ASTRONOMY & ASTROPHYSICS
卷 399, 期 2, 页码 617-630出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361:20021756
关键词
stars : evolution; stars : interiors; stars : Hertzsprung-Russell (HR) diagram; stars : mass loss; cosmology : early Universe
We present evolutionary models of zero-metallicity very massive objects, with initial masses in the range 120 M-circle dot-1000 M-circle dot, covering their quiescent evolution up to central carbon ignition. In the attempt of exploring the possible occurrence of mass loss by stellar winds, calculations are carried out with recently-developed formalisms for the mass-loss rates driven by radiation pressure (Kudritzki 2002) and stellar rotation (Maeder & Meynet 2000). The study completes the previous analysis by Marigo et al. (2001) on the constant-mass evolution of primordial stars. Our results indicate that radiation pressure (assuming a minimum metallicity Z = 10(-4) x Z(circle dot)) is not an efficient driving force of mass loss, except for very massive stars with M greater than or similar to 750 M-circle dot. On the other hand, stellar rotation might play a crucial role in triggering powerful stellar winds, once the OmegaGamma-limit is approached. However, this critical condition of intense mass loss can be maintained just for short, as the loss of angular momentum due to mass ejection quickly leads to the spinning down of the star. As by-product to the present work, the wind chemical yields from massive zero-metallicity stars are presented. The helium and metal enrichments, and the resulting DeltaY/DeltaZ ratio are briefly discussed.
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