Supplementary material to "Short Communication: Mechanism and Prevention of Irreversible Trapping of Atmospheric He During Mineral Crushing"

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS

Geochronology Pub Date : 2022-01-11 DOI:10.5194/gchron-2021-42-supplement

S. E. Cox, Hayden Miller, F. Hofmann, K. Farley

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引用次数: 1

Abstract

Abstract. A pervasive challenge in noble gas geochemistry is to ensure that analytical techniques do not modify the composition of the noble gases in the samples. Noble gases are present in the atmosphere and are used in a number of manufacturing procedures and by laboratory equipment. Of particular concern is the introduction of atmospheric or laboratory noble gases to samples during preparation before samples are placed in a vacuum chamber for analysis. Recent work has shown the potential for contamination of crushed samples with air-derived He that is not released by placing the samples under vacuum at low temperature. Using pure He gas as a tracer, we show that the act of crushing samples to a fine powder itself can introduce He contamination, but that this is easily avoided by crushing under liquid or in an inert atmosphere. Because the He is trapped during crushing, the same concern does not extend to samples that are naturally fine-grained when collected. The degree of He contamination even from crushing samples to sizes smaller than typically used for geochronology is insignificant for samples at least 1 Ma and with more than 1 ppm U when the guidelines outlined here are followed.

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“短通信:矿物破碎过程中大气He不可逆捕集的机理及预防”补充材料

摘要稀有气体地球化学中普遍存在的挑战是确保分析技术不会改变样品中稀有气体的组成。惰性气体存在于大气中，在许多制造程序和实验室设备中使用。特别值得关注的是，在样品放入真空室进行分析之前，在制备过程中向样品引入大气或实验室惰性气体。最近的研究表明，在低温下将样品置于真空中，空气衍生的He可能会污染破碎的样品。使用纯He气体作为示踪剂，我们表明将样品粉碎成细粉末的行为本身会引入He污染，但这很容易通过在液体或惰性气氛下粉碎来避免。因为He在破碎过程中被困住了，所以同样的问题并不适用于收集时自然细粒度的样品。当遵循这里概述的指导方针时，即使将样品粉碎到比通常用于地质年代学的尺寸更小的尺寸，对于至少1 Ma且U大于1 ppm的样品来说，He污染的程度也微不足道。

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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来源期刊

Geochronology Earth and Planetary Sciences-Paleontology

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

19 weeks