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Iron Abundances in Lunar Impact Basin Melt Sheets From Orbital Magnetic Field Data
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SYSNO ASEP 0487580 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Iron Abundances in Lunar Impact Basin Melt Sheets From Orbital Magnetic Field Data Author(s) Oliveira, J. S. (FR)
Wieczorek, M. A. (FR)
Kletetschka, Günther (GLU-S) RID, SAI, ORCIDSource Title Journal of Geophysical Research: Planets. - : Wiley - ISSN 2169-9097
Roč. 122, č. 12 (2017), s. 2429-2444Number of pages 16 s. Publication form Print - P Language eng - English Country US - United States Keywords Moon ; impact basins ; crustal magnetic field ; unidirectional magnetization model ; iron abundances Subject RIV DB - Geology ; Mineralogy OECD category Geology Institutional support GLU-S - RVO:67985831 UT WOS 000419993400003 EID SCOPUS 85040671347 DOI 10.1002/2017JE005397 Annotation Magnetic field data acquired from orbit shows that the Moon possesses many magnetic anomalies. Though most of these are not associated with known geologic structures, some are found within large impact basins within the interior peak ring. The primary magnetic carrier in lunar rocks is metallic iron, but indigenous lunar rocks are metal poor and cannot account easily for the observed field strengths. The projectiles that formed the largest impact basins must have contained a significant quantity of metallic iron, and a portion of this iron would have been retained on the Moon's surface within the impact melt sheet. Here we use orbital magnetic field data to invert for the magnetization within large impact basins using the assumption that the crust is unidirectionally magnetized. We develop a technique based on laboratory thermoremanent magnetization acquisition to quantify the relationship between the strength of the magnetic field at the time the rock cooled and the abundance of metal in the rock. If we assume that the magnetized portion of the impact melt sheet is 1km thick, we find average abundances of metallic iron ranging from 0.11% to 0.45wt%, with an uncertainty of a factor of about 3. This abundance is consistent with the metallic iron abundances in sampled lunar impact melts and the abundance of projectile contamination in terrestrial impact melts. These results help constrain the composition of the projectile, the impact process, and the time evolution of the lunar dynamo. Workplace Institute of Geology Contact Jana Popelková, popelkova@gli.cas.cz, Sabina Janíčková, Tel.: 233 087 272 Year of Publishing 2018
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