Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates

Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates

I have developed a technique that improves the speed, reproducibility, and sensitivity of the measurement of degree of equilibration in ordinary chondrites. The Fast Electron Microprobe technique (FEM) technique provides a continuous quantitative scale for the amount of thermal processing a particu...

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Main Author: Marsh, Celinda Anne
Other Authors: Lauretta, Dante S
Language:EN
Published: The University of Arizona. 2007
Subjects:
thermal equilibration
ordinary chondrites
meteorites
electron microprobe
Online Access:http://hdl.handle.net/10150/193378
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-1933782015-10-23T04:39:23Z Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates Marsh, Celinda Anne Lauretta, Dante S Lauretta, Dante S thermal equilibration ordinary chondrites meteorites electron microprobe I have developed a technique that improves the speed, reproducibility, and sensitivity of the measurement of degree of equilibration in ordinary chondrites. The Fast Electron Microprobe technique (FEM) technique provides a continuous quantitative scale for the amount of thermal processing a particular sample has experienced. The Fast Electron Microprobe technique (FEM) allows us to quickly collect sufficient data to determine the homogeneity and composition of olivine and low-Ca pyroxene in ordinary chondrite thin sections. I have studied several meteorites that are homogenous in olivine composition, but heterogeneous in low-Ca pyroxene composition. One of these samples (ALH 85033) has previously been classified as an L4. The FEM technique allows reproducible measurements of the degree of thermal metamorphism in ordinary chondrites, improving our understanding of thermal processing of asteroids in the early solar system. 2007 text Electronic Thesis http://hdl.handle.net/10150/193378 659748460 2500 EN Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona.
collection NDLTD
language EN
sources NDLTD
topic thermal equilibration
ordinary chondrites
meteorites
electron microprobe
spellingShingle thermal equilibration
ordinary chondrites
meteorites
electron microprobe
Marsh, Celinda Anne
Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
description I have developed a technique that improves the speed, reproducibility, and sensitivity of the measurement of degree of equilibration in ordinary chondrites. The Fast Electron Microprobe technique (FEM) technique provides a continuous quantitative scale for the amount of thermal processing a particular sample has experienced. The Fast Electron Microprobe technique (FEM) allows us to quickly collect sufficient data to determine the homogeneity and composition of olivine and low-Ca pyroxene in ordinary chondrite thin sections. I have studied several meteorites that are homogenous in olivine composition, but heterogeneous in low-Ca pyroxene composition. One of these samples (ALH 85033) has previously been classified as an L4. The FEM technique allows reproducible measurements of the degree of thermal metamorphism in ordinary chondrites, improving our understanding of thermal processing of asteroids in the early solar system.
author2 Lauretta, Dante S
author_facet Lauretta, Dante S
Marsh, Celinda Anne
author Marsh, Celinda Anne
author_sort Marsh, Celinda Anne
title Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
title_short Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
title_full Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
title_fullStr Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
title_full_unstemmed Thermal Processing in Ordinary Chondrites: Development of the Fast Electron Microprobe (FEM) Technique For Measuring Heterogeneity of Ferromagnesian Silicates
title_sort thermal processing in ordinary chondrites: development of the fast electron microprobe (fem) technique for measuring heterogeneity of ferromagnesian silicates
publisher The University of Arizona.
publishDate 2007
url http://hdl.handle.net/10150/193378
work_keys_str_mv AT marshcelindaanne thermalprocessinginordinarychondritesdevelopmentofthefastelectronmicroprobefemtechniqueformeasuringheterogeneityofferromagnesiansilicates
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