某些太阳型恒星中的中子捕获元素丰度

Valentina Sheminova, M. Baratella, V. D’Orazi
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摘要

这项研究的主要目的是准确测定所选太阳型恒星中Cu、Sr、Y、Zr、Ba、La和Ce的丰度。这将使我们能够建立观测丰度--金属性和丰度--年龄关系,并探索年轻太阳型恒星中钡元素比其他s$元素过量的原因。所选的s$过程元素是了解银河系化学演化的关键诊断指标。我们利用一维(1D)局部热力学平衡(LTE)合成和MARCS大气模型,分析了主序太阳型FGK恒星的高分辨率($R$ = 115\,000 )和高信噪比(接近100)的HARPS光谱,这些恒星的金属性在$-0.15$到+0.35 dex之间,年龄在2到14 Gyr之间。在将合成线剖面拟合到观测线剖面的过程中,自由参数包括丰度、微扰动速度和大扰动速度。大扰动速度可以在很大程度上补偿线核心的非局部热力学平衡(NLTE)效应。太阳型恒星的元素丰度X/H随金属性和年龄的增加而增加。这些观测趋势与已发表的观测数据以及银河化学演化(GCE)模型的预测结果非常吻合。在七颗平均年龄为 2.8 0.6$ Gyr 的较年轻恒星中检测到了 0.08 ± 0.08 dex 的 Ba/Fe 小幅增强。与其他s$过程元素的丰度相比,Ba/Fe分别比La和Ce平均高出0.07和0.08 dex。此外,我们还发现随着色球活动的增加,Ba/Fe 的比值也在增加。三颗最活跃恒星的平均 Ba/Fe 比其他恒星高 0.15 0.10$ dex。色球活动的特点是活跃区域(如孔隙、斑点、栅格和网络)的磁场较强,这可以显著改变Ba线形成层的物理条件。我们的主要结论是,要解释在较年轻恒星中观测到的 Ba/Fe 丰度过剩,必须使用包含磁结构的更复杂大气模型。
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Abundances of neutron-capture elements in selected solar-type stars
The primary objective of this study is to accurately determine the abundances of Cu, Sr, Y, Zr, Ba, La, and Ce in selected solar-type stars. This will allow us to establish observational abundance--metallicity and abundance--age relations and to explore the reasons for the excess of Ba compared to other $s$-elements in younger solar-type stars. The chosen $s$-process elements are critical diagnostics for understanding the chemical evolution of our Galaxy. We analysed HARPS spectra with a high resolution ($R$ = 115\,000) and high signal-to-noise ratio (close to 100) of main-sequence solar-type FGK stars with metallicities from $-0.15$ to +0.35 dex and ages from 2 to 14 Gyr using one-dimensional (1D) local thermodynamic equilibrium (LTE) synthesis and MARCS atmospheric models. In the procedure of fitting synthetic to observed line profiles, the free parameters included abundance and microturbulent and macroturbulent velocity. The macroturbulent velocity can substantially compensate for non-local thermodynamic equilibrium (NLTE) effects in the line core. The resulting elemental abundance X/H increases with metallicity and age for solar-type stars. The ratio of the abundances of $s$-process elements s/Fe increases with decreasing metallicity and age, while the Cu/Fe ratio increases with both metallicity and age. These observed trends agree well with published observational data and with predictions from Galactic chemical evolution (GCE) models. A small Ba/Fe enhancement of 0.08 ± 0.08 dex has been detected in seven younger stars with an average age of $2.8 0.6$ Gyr. Compared to the abundances of other $s$-process elements Ba/Fe is 0.07 and 0.08 dex higher than La and Ce on average, respectively. Furthermore, we find that the Ba/Fe ratio increases with increasing chromospheric activity. The average Ba/Fe for the three most active stars is $0.15 0.10$ dex higher than that of the other stars. Chromospheric activity, characterised by stronger magnetic fields found in active regions such as pores, spots, plages, and networks, can significantly alter the physical conditions in the formation layers of the Ba lines. Our primary conclusion is that to account for the observed excess of Ba/Fe abundance in younger stars, it is essential to use more complex atmospheric models that incorporate magnetic structures.
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