月球内部的原生惰性气体。

Indigenous noble gases in the Moon's interior.

作者信息

Will Patrizia, Busemann Henner, Riebe My E I, Maden Colin

机构信息

Institute of Geochemistry and Petrology, ETH Zürich, Clausiusstrasse 25, 8092 Zürich, Switzerland.

出版信息

Sci Adv. 2022 Aug 12;8(32):eabl4920. doi: 10.1126/sciadv.abl4920. Epub 2022 Aug 10.

DOI:10.1126/sciadv.abl4920

PMID:35947666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9365290/

Abstract

The origin of volatiles in the Moon's interior is debated. Scenarios range from inheritance through a Moon-forming disk or "synestia" to late accretion by meteorites or comets. Noble gases are excellent tracers of volatile origins. We report analyses of all noble gases in paired, unbrecciated lunar mare basalts and show that magmatic glasses therein contain indigenous noble gases including solar-type He and Ne. Assimilation of solar wind (SW)-bearing regolith by the basaltic melt or SW implantation into the basalts is excluded on the basis of the petrological context of the samples, as well as the lack of SW and "excess Ar" in the magmatic minerals. The absence of chondritic primordial He and Ne signatures excludes exogenous contamination. We thus conclude that the Moon inherited indigenous noble gases from Earth's mantle by the Moon-forming impact and propose storage in the incompatible element-enriched ("KREEP") reservoir.

摘要

月球内部挥发性物质的来源存在争议。其形成过程的设想范围广泛，从通过月球形成盘或“synestia”继承，到陨石或彗星的后期吸积。惰性气体是挥发性物质来源的极佳示踪剂。我们报告了对成对的、未角砾化的月球月海玄武岩中所有惰性气体的分析结果，结果表明其中的岩浆玻璃含有包括太阳型氦和氖在内的原生惰性气体。基于样品的岩石学背景，以及岩浆矿物中缺乏太阳风（SW）和“过剩氩”，排除了玄武质熔体对含太阳风的月壤的同化作用或太阳风注入玄武岩的可能性。球粒陨石原始氦和氖特征的缺失排除了外源污染。因此，我们得出结论，月球通过形成月球的撞击从地球地幔继承了原生惰性气体，并提出这些气体储存在富含不相容元素的（“克里普岩”）储库中。

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月球内部的原生惰性气体。

Indigenous noble gases in the Moon's interior.

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