Revisiting the Relationship Between Rocky Exoplanet and Stellar Compositions: Reduced Evidence for a Super-Mercury Population

Casey L. Brinkman, Alex S. Polanski, Daniel Huber, Lauren M. Weiss, Diana Valencia, Mykhaylo Plotnykov
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Abstract

Planets and the stars they orbit are born from the same cloud of gas and dust, and the primordial compositions of rocky exoplanets have been assumed to have iron and refractory abundance ratios consistent with their host star. To test this assumption, we modeled the interior iron-to-rock ratio of 20 super-Earth sized (1-1.8R$_{\oplus}$) exoplanets around stars with homogeneously measured stellar parameters. We computed the core mass fraction for each planet and an equivalent ``core mass fraction'' for each host star based on its Fe and Mg abundances. We then fit a linear correlation using two methods (Ordinary Least Squares and Orthogonal Distance Regression) between planetary and stellar core mass fraction, obtaining substantially different slopes between these two methods (m=1.3 $\pm$ 1.0 and m=5.6 $\pm$ 1.6, respectively). Additionally, we find that 75$\%$ of planets have a core mass fraction consistent with their host star to within 1$\sigma$, and do not identify a distinct population of high-density super-Mercuries. Overall, we conclude that current uncertainties in observational data and differences in modeling methods prevent definitive conclusions about the relationship between between planet and host star chemical compositions.
重新审视岩质系外行星与恒星成分之间的关系:超汞种群的证据减少
行星和它们所环绕的恒星诞生于同一团气体和尘埃云,而岩石系外行星的原始成分被假定为具有与其宿主恒星一致的铁和难熔物丰度比。为了验证这一假设,我们模拟了恒星周围20颗超地球体大小(1-1.8R$_{\oplus}$)系外行星的内部铁-岩石比,这些恒星的参数是均匀测量的。我们根据每颗行星的铁和镁丰度,计算了每颗行星的内核质量分数和每颗主星的等效 "内核质量分数"。然后,我们用两种方法(普通最小二乘法和正交距离回归法)拟合了行星和恒星核心质量分数之间的线性相关关系,这两种方法得到的斜率大不相同(分别为 m=1.3 $\pm$ 1.0 和 m=5.6 $\pm$ 1.6)。此外,我们发现75%的行星的内核质量分数与其宿主恒星的质量分数在1个西格玛以内,并没有识别出一个独特的高密度超墨丘利群。总之,我们认为目前观测数据的不确定性和建模方法的差异使得我们无法对行星和宿主星化学成分之间的关系得出明确的结论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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