Validation Experiments for In Situ Ne Isotope Analysis on Mars: Gas Separation Flange Assembly Using Polyimide Membrane and Metal Seal

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Yuichiro Cho, Yayoi N. Miura, Hikaru Hyuga, Kenta Shimokoshi, Kazuo Yoshioka, Hiroyuki Kurokawa, Hidenori Kumagai, Naoyoshi Iwata, Satoshi Kasahara, Haruhisa Tabata, Mari Aida, Yoshifumi Saito, Seiji Sugita
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Abstract

The Martian atmospheric Ne may reflect recent gas supply from its mantle via volcanic degassing, due to its short (∼100 Myr) escape timescale. The isotopic ratio of the Martian atmospheric Ne would therefore provide insights into that of the Martian mantle, further suggesting the origin of Mars volatiles during planetary formation. Mass spectrometric analysis of the Martian atmospheric Ne, however, has faced challenges from interference between 20Ne+ and 40Ar++. Previous studies using a polyimide membrane for 20Ne/40Ar separation were limited by the drawbacks of elastomeric O-rings to support the membrane, such as low-temperature intolerance, outgassing, and the need to endure environmental conditions during the launch and before/after landing on Mars. This study proposes a new method employing a metal C-ring to secure a 100 μm polyimide sheet within vacuum flanges. Environmental tests, including vibration, shock, extreme temperatures, and radiation exposure, were conducted on the gas separation flanges. Pre- and post-test analyses for He, Ne, and Ar demonstrated the membrane-flange system’s resilience. Gas permeation measurements using terrestrial air effectively permeated 4He and 20Ne, while reducing 40Ar by more than six orders of magnitude. This study achieved a <3% accuracy in determining the 20Ne/22Ne ratio, sufficient for assessing the origins of Ne in the Martian mantle. Furthermore, experiments with a 590 Pa gas mixture simulating the Martian atmosphere achieved a 10% accuracy for the 20Ne/22Ne isotope ratio, with gas abundances consistent with numerical predictions based on individual partial pressures. These results validate the suitability of the developed polyimide membrane assembly for in situ Martian Ne analyses.
火星现场 Ne 同位素分析验证实验:使用聚酰亚胺膜和金属密封件的气体分离法兰组件
火星大气中的 "氖 "可能反映了最近通过火山脱气从火星地幔中获得的气体,因为 "氖 "的逃逸时间很短(100 Myr)。因此,火星大气中氖的同位素比值将有助于了解火星地幔的同位素比值,进一步说明火星挥发物在行星形成过程中的来源。然而,火星大气中 Ne 的质谱分析面临着 20Ne+ 和 40Ar++ 之间干扰的挑战。以前使用聚酰亚胺膜来分离 20Ne/40Ar 的研究受到了支撑膜的弹性 O 形环的缺点的限制,如不耐低温、排气,以及在发射过程中和登陆火星前后需要承受环境条件等。本研究提出了一种采用金属 C 形环将 100 μm 聚酰亚胺薄膜固定在真空法兰内的新方法。对气体分离法兰进行了环境测试,包括振动、冲击、极端温度和辐射暴露。对 He、Ne 和 Ar 进行的试验前和试验后分析表明,膜-法兰系统具有良好的适应性。使用陆地空气进行的气体渗透测量有效地渗透了 4He 和 20Ne,同时将 40Ar 减少了六个数量级以上。这项研究在确定20Ne/22Ne比率方面达到了<3%的精确度,足以评估火星地幔中Ne的来源。此外,使用模拟火星大气的 590 Pa 气体混合物进行的实验使 20Ne/22Ne 同位素比值的精确度达到了 10%,气体丰度与基于单个分压的数值预测一致。这些结果验证了所开发的聚酰亚胺膜组件适用于原位火星氖分析。
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
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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