Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-09-20
Astronomy and Astrophysics
Astrophysics
6pages including 3 figures, to appear in ApJ
Scientific paper
10.1086/324537
We investigate the chemical evolution of odd-numbered elements such as sodium (Na) and aluminum (Al) during the early epochs of the Galactic halo with the use of a model that reproduces the observed box-shaped distribution of extremely metal-poor stars in the [Na, Al/Mg] versus [Mg/H] plane. Our model is constructed under the assumptions that those stars retain the elemental abundance patterns produced by individual Type II supernovae (SNe), and that the yields of the odd elements depend on the initial metallicity, z, of their SN progenitors. As a result, recent abundance determinations that clarify how the [Na, Al/Mg] ratios of field stars have evolved to the solar values enable us to deduce how the yields of these odd elements depend on z. The observed trends in these abundances, in particular the very large scatter (over 1 dex in [Al/Mg]) requires that the Al yield scales as m_Al proportional to z^0.6 for [Mg/H]<-1.8, while the observed [Na/Mg] trend requires that the Na yield scales as m_Na proportional to z^-0.4 for [Mg/H]<-1.8 and m_Na proportional to z^0.4 for [Mg/H]>-1.8. It is found that the predicted frequency distribution of stars in the [Na/Mg] versus [Mg/H] diagram is very sensitive to the assumed form of the primordial IMF, and that its slope is steeper than the Salpeter IMF. The necessity to match the observed abundance patterns of odd elements and the frequency distribution of extremely metal-poor stars should provide useful constraints on nucleosynthesis calculations of metal-free massive stars as well as on theories of their formation.
Shigeyama Toshikazu
Tsujimoto Takuji
Yoshii Yuzuru
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