VNIR Spectral Properties of Five G-Class Asteroids: Implications for Mineralogy and Geologic Evolution

VNIR Spectral Properties of Five G-Class Asteroids: Implications for Mineralogy and Geologic Evolution

This study investigates the visible and near-infrared (VNIR) spectral properties (0.4-2.5-μm) of five Tholen G-class asteroids. Spectral features relating to hydrated Fe- or Mg-rich minerals have been identified at 0.7-μm, 0.95-μm, 1.4-μm, 1.9-μm, and 2.3-μm, while spectral features that may be rela...

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Bibliographic Details
Main Author: Germann, Justin Todd
Format: Dissertation
Language:English
Published: ProQuest Dissertations & Theses 01-01-2021
Subjects:
Geochemistry
Planetology
Remote sensing
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Summary:This study investigates the visible and near-infrared (VNIR) spectral properties (0.4-2.5-μm) of five Tholen G-class asteroids. Spectral features relating to hydrated Fe- or Mg-rich minerals have been identified at 0.7-μm, 0.95-μm, 1.4-μm, 1.9-μm, and 2.3-μm, while spectral features that may be related to CH or NH compounds were identified at 1.14-μm and 1.25-μm. (1) Ceres lacks features related to hydrated minerals and is spectrally disparate from the other four investigated asteroids. (13) Egeria, (19) Fortuna, (84) Klio, and (130) Elektra all exhibit at least two measurable features that may be related to hydrated minerals. (19) Fortuna, (84) Klio, and (130) Elektra each exhibit similar spectral slope and feature intensity, while (13) Egeria has a bluer slope and more intense features. These differences may be related to (13) Egeria’s higher density, surface particle size, or the effects of space weathering.
ISBN:9798516918841