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Solving the G-dwarf problem with a three-component model of the chemical evolution of the Galaxy |
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| Authors: | Li Tian-chao Zhao Gang Luo Shao-guang |
| Affiliation: | 1 Beijing Astronomical Observatory, Chinese Academy of Sciences, Beijing 100012, China 2 Department of Geophysics, Peking University, Beijing 100871, China 3 CAS-Peking University Joint Beijing Astrophysical Center, Beijing 100871, China |
| Abstract: | A three-component chemical evolution model of the Galaxy is presented, which we believe will cast a new light on the G-dwarf problem. The model is based on a scenario of the Galaxy consisting of three major evolutionary phases: halo, thick disk and thin disk, separated by two short interludes of rapid collapse. The evolution of different stellar populations are treated separately, the combination of which yields an overall metallicity distribution function for the solar neighbourhood. We tested three different models using the same set of basic equations: the “prompt initial enrichment” (PIE) model, the “proportional yield” (PPY) model and the “collapse” (CLP) model. Best-fit parameters are derived. The results show that the different populations have remarkably different IMFs, while mass exchange has only minimally affected the chemical evolution in the solar vicinity, so that the solar vicinity can be regarded as a closed system, at least in the late stage of the Galactic evolution. |
| Keywords: | Galactic evolution solar neighbourhood chemical evolution model G-dwarf metallicity distribution |
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