Composition of super-Earths, super-Mercuries, and their host stars

Communications of the Byurakan Astrophysical Observatory Pub Date : 2021-12-29 DOI:10.52526/25792776-2021.68.2-447

V. Adibekyan, N. Santos, C. Dorn, S. Sousa, A. Hakobyan, B. Bitsch, C. Mordasini, S. Barros, E. D. Mena, O. Demangeon, J. Faria, P. Figueira, B. M. T. B. Soares, G. Israelian

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引用次数: 2

Abstract

Because of their common origin, it was assumed that the composition of planet building blocks should, to a first order, correlate with stellar atmospheric composition, especially for refractory elements. In fact, information on the relative abundance of refractory and major rock-forming elements such as Fe, Mg, Si has been commonly used to improve interior estimates for terrestrial planets. Recently Adibekyan et al. (2021) presented evidence of a tight chemical link between rocky planets and their host stars. In this study we add six recently discovered exoplanets to the sample of Adibekyan et al and re-evaluate their findings in light of these new data. We confirm that i) iron-mass fraction of rocky exoplanets correlates (but not a 1:1 relationship) with the composition of their host stars, ii) on average the iron-mass fraction of planets is higher than that of the primordial f star iron , iii) super-Mercuries are formed in disks with high iron content. Based on these results we conclude that disk-chemistry and planet formation processes play an important role in the composition, formation, and evolution of super-Earths and super-Mercuries.

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超级地球、超级水星和它们的宿主恒星的组成

由于它们的共同起源，人们认为，行星构成单元的组成在一级上应该与恒星大气组成有关，特别是对于难熔元素。事实上，有关耐火材料和主要岩石形成元素(如铁、镁、硅)的相对丰度的信息已被普遍用于改善类地行星的内部估计。最近，Adibekyan等人(2021)提出了岩石行星与其宿主恒星之间存在紧密化学联系的证据。在这项研究中，我们将六颗最近发现的系外行星添加到Adibekyan等人的样本中，并根据这些新数据重新评估他们的发现。我们证实，i)岩石系外行星的铁质量分数与其主恒星的组成相关(但不是1:1的关系)，ii)行星的平均铁质量分数高于原始恒星的铁质量分数，iii)超级水星形成于铁含量高的圆盘中。基于这些结果，我们得出结论，圆盘化学和行星形成过程在超级地球和超级水星的组成、形成和演化中起着重要作用。

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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Communications of the Byurakan Astrophysical Observatory

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