Carbon enrichment in APOGEE disk stars as evidence of mass transfer in binaries

Steve Foster, R. Schiavon, Denise B. de Castro, S. Lucatello, C. Daher, Z. Penoyre, A. Price-Whelan, Carles Badenes, J. G. Fern'andez-Trincado, D. A. Garc'ia-Hern'andez, Jon A. Holtzman, H. Jőnsson, M. Shetrone
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Abstract

Carbon abundances in first-ascent giant stars are usually lower than those of their main-sequence counterparts. At moderate metallicities, stellar evolution of single stars cannot account for the existence of red-giant branch stars with enhanced carbon abundances. The phenomenon is usually interpreted as resulting from past mass transfer from an evolved binary companion now in the white dwarf evolutionary stage. We aim to confirm the links between C/O enhancement, $s-$process element enhancement and binary fraction using large-scale catalogues of stellar abundances and probable binary stars. We use a large data set from the 17$^ th $ data release of the SDSS-IV/APOGEE 2 survey to identify carbon-enhanced stars in the Galactic disk. We identify a continuum of carbon enrichment throughout three different sub-populations of disk stars and explore links between the degree of carbon enrichment and binary frequency, metallicity and chemical compositions. We verify a clear correlation between binary frequency and enhancement in the abundances of both carbon and cerium, lending support to the scenario whereby carbon-enhanced stars are the result of mass transfer by an evolved binary companion. In addition, we identify clustering in the carbon abundances of high-alpha disk stars, suggesting that those on the high metallicity end are likely younger, in agreement with theoretical predictions for the presence of a starburst population following the gas-rich merger of the Gaia-Enceladus/Sausage system.
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APOGEE盘状恒星中的碳富集是双星质量转移的证据
在中等金属度的情况下,单星的恒星演化无法解释碳丰度增强的红巨星分支恒星的存在。在中等金属度下,单星演化无法解释存在碳丰度增强的红巨星分支恒星的原因,这种现象通常被解释为过去从处于白矮星演化阶段的演化双星伴星进行质量转移的结果。我们的目的是利用大规模的恒星丰度和可能的双星星表来证实C/O增强、$s-$过程元素增强和双星分数之间的联系。我们利用 SDSS-IV/APOGEE 2 勘测发布的第 17$^ th $ 次数据中的大型数据集来识别银河系盘中的碳增强恒星。我们在三个不同的星盘恒星亚群中发现了碳富集的连续性,并探索了碳富集程度与双星频率、金属性和化学成分之间的联系。我们验证了双星频率与碳和铈丰度增强之间的明显相关性,为碳增强恒星是进化双星伴星质量转移的结果这一假设提供了支持。此外,我们还发现了高α盘恒星碳丰度的聚类现象,这表明那些金属性较高的恒星很可能比较年轻,这与理论预测的盖亚-恩克拉多斯/香肠系统富含气体合并后出现星爆群体的情况相吻合。
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