Impact Disruption of Bjurböle Porous Chondritic Projectile

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS The Planetary Science Journal Pub Date : 2024-05-30 DOI:10.3847/psj/ad4266

Tomas Kohout, Maurizio Pajola, Assi-Johanna Soini, Alice Lucchetti, Arto Luttinen, Alexia Duchêne, Naomi Murdoch, Robert Luther, Nancy L. Chabot, Sabina D. Raducan, Paul Sánchez, Olivier S. Barnouin and Andrew S. Rivkin

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Abstract

The ∼200 m s−1 impact of a single 400 kg Bjurböle L/LL ordinary chondrite meteorite onto sea ice resulted in the catastrophic disruption of the projectile. This resulted in a significant fraction of decimeter-sized fragments that exhibit power-law cumulative size and mass distributions. This size range is underrepresented in impact experiments and asteroid boulder studies. The Bjurböle projectile fragments share similarities in shape (sphericity and roughness at small and large scales) with asteroid boulders. However, the mean aspect ratio (3D measurement) and apparent aspect ratio (2D measurement) of the Bjurböle fragments is 0.83 and 0.77, respectively, indicating that Bjurböle fragments are more equidimensional compared to both fragments produced in smaller-scale impact experiments and asteroid boulders. These differences may be attributed either to the fragment source (projectile versus target), to the high porosity and low strength of Bjurböle, to the lower impact velocity compared with typical asteroid collision velocities, or potentially to fragment erosion during sea sediment penetration or cleaning.

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比尤伯勒多孔软玉射弹的撞击破坏

一颗重达 400 千克的比尤博勒 L/LL 普通软玉陨石以 ∼200 m s-1 的速度撞击海冰，导致弹丸发生灾难性的破坏。其结果是产生了很大一部分十厘米大小的碎片，这些碎片的大小和质量呈幂律累积分布。这一尺寸范围在撞击实验和小行星巨石研究中代表性不足。比尤伯勒抛射体碎片的形状（球形度和大小尺度的粗糙度）与小行星巨石相似。不过，比尤伯勒碎片的平均长宽比（三维测量）和表观长宽比（二维测量）分别为 0.83 和 0.77，表明比尤伯勒碎片与较小尺度撞击实验产生的碎片和小行星巨石相比更加等维。这些差异可能归因于碎片来源（射弹与目标）、比尤伯勒的高孔隙率和低强度、与典型的小行星碰撞速度相比较低的撞击速度，或者可能归因于碎片在海洋沉积物穿透或清理过程中的侵蚀。

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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