原行星盘中的稀土元素核合成异常与尘埃传输

Rare earth element nucleosynthetic anomalies and dust transport in the protoplanetary disk.

作者信息

Hu Justin Y, Tissot François L H, Marquez Ren T C, Shorttle Oliver, Clarke Cathie J, Sellek Andrew D, Dauphas Nicolas, Charlier Bruce L A, Leya Ingo, Yokochi Reika, Ireland Thomas J, Williams Helen M

机构信息

Origins Laboratory, Department of the Geophysical Sciences and Enrico Fermi Institute, The University of Chicago, Chicago, IL 60637, USA.

Department of Earth Sciences, University of Cambridge, Cambridge CB2 3EQ, UK.

出版信息

Sci Adv. 2025 Jul 11;11(28):eadv3148. doi: 10.1126/sciadv.adv3148. Epub 2025 Jul 9.

DOI:10.1126/sciadv.adv3148

PMID:40632841

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12239934/

Abstract

The size, density, and chemical characteristics of solar system bodies have been shaped by material transport during the protoplanetary disk stage. This includes transport from the inner to outer solar system of refractory dust grains that carry nucleosynthetic anomalies. Here, we show that rare earth element (REE) isotopes in fine-grained calcium-aluminum-rich inclusions (CAIs) display anomalies stemming from incomplete mixing of -, -, and -process nucleosynthesis. The data points define two correlations, which are best explained by mixing between three isotopic reservoirs in two successive stages, one of which involved a variable admixture of a -process component. We propose that CAI precursors formed in the inner solar system and were subsequently transported by FU Orionis outbursts from the disk to the envelope where they mixed with an isotopically distinct reservoir before settling on the midplane.

摘要

太阳系天体的大小、密度和化学特征在原行星盘阶段受到物质传输的影响。这包括携带核合成异常的难熔尘埃颗粒从太阳系内部向外太阳系的传输。在这里，我们表明细粒富钙铝包体（CAIs）中的稀土元素（REE）同位素显示出源于α、p、r过程核合成不完全混合的异常。数据点定义了两种相关性，这最好由两个连续阶段中三个同位素储库之间的混合来解释，其中一个阶段涉及r过程成分的可变混合。我们提出CAI前体在太阳系内部形成，随后通过猎户座FU型爆发从星盘传输到包层，在那里它们与同位素不同的储库混合，然后沉降到中平面上。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d01/12239934/458757141908/sciadv.adv3148-f1.jpg

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原行星盘中的稀土元素核合成异常与尘埃传输

Rare earth element nucleosynthetic anomalies and dust transport in the protoplanetary disk.

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