小麦哲伦云的银河系外 85Rb/87Rb 和 6Li/ ^7Li 比率

P. Molaro, P. Bonifacio, G. Cupani, J. C. Howk
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引用次数: 0

摘要

位于小麦哲伦云(SMC)中的一颗O9.5 Ib恒星Sk 143(AzV 456)的视线显示出明显的中性原子和分子吸收现象。我们报告了利用欧洲南方天文台 VLT 的 ESPRESSO 摄谱仪获得的高分辨率光谱对这条视线进行的新研究。在 v$_ hel $ approx +132 处的单一成分很好地描述了中性和电离物种的吸收,该成分是用 ASTROCOOK 代码建模的。我们首次在银河系外探测到了铷 Rb I 780.0 nm 线,并推导出 Rb/H = -1.86 pm 0.09。由于分辨率高,85Rb 和 87Rb 同位素线的分辨率也特别高。85Rb/87Rb 同位素比值为 0.46,与陨石的 2.43 值相反。 这意味着 Rb 是通过 $r$ 过程产生的,而 $r$ 过程在 87Rb 同位素中占主导地位。我们还证实了 670.7 nm 的存在,并将同位素比率限制在 $^6$Li/$^7Li$ < 0.1。87Rb 同位素的优势意味着 Rb 是通过 $r$ 过程的主要贡献制造的。在 Zn/H = -1.28 pm 0.09 的低金属度云中,富中子物质可能发生在旋转的贫金属大质量恒星中。此外,云的低金属性导致锂的绝对丰度A($^7$Li)约为2.2,这与大爆炸核合成的预期不同。由于气相丰度不受恒星耗竭的影响,因此光环恒星内部的锂燃烧可能不是解决宇宙学$^7$Li问题的办法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Extragalactic 85Rb/87Rb and 6Li/ ^7Li ratios in the Small Magellanic Cloud
The line of sight toward Sk 143 (AzV 456), an O9.5 Ib star in the Small Magellanic Cloud (SMC), shows significant absorption from neutral atoms and molecules. We report a new study of this line of sight by means of high-resolution spectra obtained with the ESPRESSO spectrograph at the VLT of ESO. The absorption from neutral and ionized species is well characterized by a single component at v$_ hel $ approx +132 that was modeled with the ASTROCOOK code. The rubidium Rb I 780.0 nm line is detected for the first time outside the Galaxy, and we derive Rb/H = -1.86 pm 0.09. As a result of the high resolution, the 85Rb and 87Rb isotope lines are also exceptionally well resolved. The 85Rb/87Rb isotope ratio is 0.46, which is opposite of the meteoritic value of 2.43. This implies that Rb is made through a dominant contribution of the $r$-process, which is dominant for the 87Rb isotope. We also confirm the presence of 670.7 nm and set a limit on the isotopic ratio of $^6$Li/$^7Li$ < 0.1. The dominance of the 87Rb isotope implies that Rb is made through a dominant contribution of the $r$-process. At the low metallicity of the cloud of Zn/H = -1.28 pm 0.09 , neutron rich material may have occurred in rotating metal-poor massive stars. Moreover, the low metallicity of the cloud leads to an absolute Li abundance of A($^7$Li) approx 2.2, which differs from the expectation from big bang nucleosynthesis. Because the gas-phase abundance is not affected by stellar depletion, the burning of Li inside the halo stars is probably not the solution for the cosmological $^7$Li problem.
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