Arpu Kuilpu陨石:深入分析从木星家族彗星轨道送出的H5陨石的特征

Seamus L. Anderson, Gretchen K. Benedix, Belinda Godel, Romain M. L. Alosius, Daniela Krietsch, Henner Busemann, Colin Maden, Jon M. Friedrich, Lara R. McMonigal, Kees C. Welten, Marc W. Caffee, Robert J. Macke, Seán Cadogan, Dominic H. Ryan, Fred Jourdan, Celia Mayers, Matthias Laubenstein, Richard C. Greenwood, Malcom P. Roberts, Hadrien A. R. Devillepoix, Eleanor K. Sansom, Martin C. Towner, Martin Cupák, Philip A. Bland, Lucy V. Forman, John H. Fairweather, Ashley F. Rogers, Nicholas E. Timms
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This\nmeteorite was then distributed to a consortium of collaborating institutions to\nbe measured and analyzed by a number of methodologies including: SEM-EDS, EPMA,\nICP-MS, gamma-ray spectrometry, ideal gas pycnometry, magnetic susceptibility\nmeasurement, {\\mu}CT, optical microscopy, and accelerator and noble gas mass\nspectrometry techniques. These analyses revealed that Arpu Kuilpu is an\nunbrecciated H5 ordinary chondrite, with minimal weathering (W0-1) and minimal\nshock (S2). The olivine and pyroxene mineral compositions (in mol%) are Fa:\n19.2 +- 0.2, and Fs: 16.8 +- 0.2, further supporting the H5 type and class. The\nmeasured oxygen isotopes are also consistent with an H chondrite ({\\delta}17O =\n2.904 +- 0.177; {\\delta}18O = 4.163 +- 0.336; {\\Delta}17O = 0.740 +- 0.002).\nIdeal gas pycnometry measured bulk and grain densities of 3.66 +- 0.02 and 3.77\n+- 0.02 g cm-3, respectively, yielding a porosity of 3.0 % +- 0.7. 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引用次数: 0

摘要

在南澳大利亚的纳拉伯平原上空,沙漠火球网于2019年6月1日晚(当地时间晚上7:30)探测到一个火球,六周后回收了一块名为Arpu Kuilpu的陨石(42克)。这块陨石随后被分发给了一个由合作机构组成的联盟,以通过多种方法进行测量和分析,包括这些方法包括:SEM-EDS、EPMA、ICP-MS、伽马射线光谱仪、理想气体比重计、磁感应强度测量、{\mu}CT、光学显微镜以及加速器和惰性气体质谱仪技术。这些分析表明,阿尔普-库尔普是一块未破碎的 H5 普通软玉,风化程度极低(W0-1),冲击程度极小(S2)。橄榄石和辉石的矿物成分(摩尔%)分别为 Fa:19.2 +- 0.2 和 Fs.16.8 +- 0.2:16.8 +- 0.2,进一步支持了H5类型和类别。理想气体比重测定法测得的体积密度和颗粒密度分别为 3.66 +- 0.02 和 3.77+- 0.02 g cm-3,孔隙率为 3.0 % +- 0.7。这块陨石的磁感应强度为 log X = 5.16 +- 0.08。根据 40Ar/39Ar 年代测定,Arpu Kuilpu 最近经历的与撞击有关的加热事件是 4467 +- 16 Ma,而宇宙射线照射年龄估计为 6-8 Ma。惰性气体同位素、放射性核素和火球观测结果都表明,阿尔普-库伊尔普的陨石相当小(最大半径为 10 厘米,但更可能在 1-5 厘米之间)。虽然这块陨石是一块相当普通的普通软玉,但它之前的轨道却与木星家族彗星(JFC)的轨道相似,这进一步支持了这样一种说法,即木星家族彗星轨道上许多厘米到米大小的物体都是小行星,而不是陨石。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Arpu Kuilpu Meteorite: In-depth characterization of an H5 chondrite delivered from a Jupiter Family Comet orbit
Over the Nullarbor Plain in South Australia, the Desert Fireball Network detected a fireball on the night of 1 June 2019 (7:30 pm local time), and six weeks later recovered a single meteorite (42 g) named Arpu Kuilpu. This meteorite was then distributed to a consortium of collaborating institutions to be measured and analyzed by a number of methodologies including: SEM-EDS, EPMA, ICP-MS, gamma-ray spectrometry, ideal gas pycnometry, magnetic susceptibility measurement, {\mu}CT, optical microscopy, and accelerator and noble gas mass spectrometry techniques. These analyses revealed that Arpu Kuilpu is an unbrecciated H5 ordinary chondrite, with minimal weathering (W0-1) and minimal shock (S2). The olivine and pyroxene mineral compositions (in mol%) are Fa: 19.2 +- 0.2, and Fs: 16.8 +- 0.2, further supporting the H5 type and class. The measured oxygen isotopes are also consistent with an H chondrite ({\delta}17O = 2.904 +- 0.177; {\delta}18O = 4.163 +- 0.336; {\Delta}17O = 0.740 +- 0.002). Ideal gas pycnometry measured bulk and grain densities of 3.66 +- 0.02 and 3.77 +- 0.02 g cm-3, respectively, yielding a porosity of 3.0 % +- 0.7. The magnetic susceptibility of this meteorite is log X = 5.16 +- 0.08. The most recent impact-related heating event experienced by Arpu Kuilpu was measured by 40Ar/39Ar chronology to be 4467 +- 16 Ma, while the cosmic ray exposure age is estimated to be between 6-8 Ma. The noble gas isotopes, radionuclides, and fireball observations all indicate that Arpu Kuilpu's meteoroid was quite small (maximum radius of 10 cm, though more likely between 1-5 cm). Although this meteorite is a rather ordinary ordinary chondrite, its prior orbit resembled that of a Jupiter Family Comet (JFC) further lending support to the assertion that many cm- to m-sized objects on JFC orbits are asteroidal rather than cometary in origin.
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