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Elemental Composition and Chemical Evolution of Geologic Materials in Gale Crater, Mars: APXS Results From Bradbury Landing to the Vera Rubin Ridge
Jeff A. Berger
, Ralf Gellert
, Nicholas I. Boyd
, Penelope L. King
, Michael A. McCraig
, Catherine D. O'Connell-Cooper
, Mariek E. Schmidt
, John G. Spray
, Lucy M. Thompson
, Scott J.V. VanBommel
, Albert S. Yen
Department of Earth & Planetary Sciences
Research output
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Contribution to journal
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Article
›
peer-review
58
Scopus citations
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Dive into the research topics of 'Elemental Composition and Chemical Evolution of Geologic Materials in Gale Crater, Mars: APXS Results From Bradbury Landing to the Vera Rubin Ridge'. Together they form a unique fingerprint.
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Keyphrases
Elemental Composition
100%
Mars
100%
Chemical Evolution
100%
Compositional Evolution
100%
Gale Crater
100%
Geologic Materials
100%
Vera Rubin Ridge
100%
Alpha Particle X-ray Spectrometer
100%
Sand
28%
Lithification
28%
Halo
14%
Extended Period
14%
Mass Spectrometer
14%
Spectrometer Measurements
14%
Alkali
14%
Mineralogy
14%
Liquid Water
14%
Sandstone
14%
Rover
14%
Gas Chromatograph
14%
Diagenetic Features
14%
X-ray Diffractometer
14%
Fluid Interaction
14%
Mount Sharp
14%
Scientific Payloads
14%
Fluid Alteration
14%
Sample Analysis at Mars
14%
Arid Climate
14%
Earth and Planetary Sciences
Diffractometers
14%