What you see and what you get: combining near-infrared spectroscopy with powder diffraction

Article


Maynard-Casely, Helen E., Booth, Norman, Anderberg, Leo, Brand, Helen E. A. and Cotton, Daniel V.. 2017. "What you see and what you get: combining near-infrared spectroscopy with powder diffraction." Powder Diffraction. 32 (S2), pp. S3-S8. https://doi.org/10.1017/S0885715617000884
Article Title

What you see and what you get: combining near-infrared spectroscopy with powder diffraction

ERA Journal ID211234
Article CategoryArticle
AuthorsMaynard-Casely, Helen E., Booth, Norman, Anderberg, Leo, Brand, Helen E. A. and Cotton, Daniel V.
Journal TitlePowder Diffraction
Journal Citation32 (S2), pp. S3-S8
Number of Pages6
Year2017
PublisherCambridge University Press
Place of PublicationUnited States
ISSN0885-7156
1945-7413
Digital Object Identifier (DOI)https://doi.org/10.1017/S0885715617000884
Web Address (URL)https://www.cambridge.org/core/journals/powder-diffraction/article/what-you-see-and-what-you-get-combining-nearinfrared-spectroscopy-with-powder-diffraction/70DF3EF98CE3946795D04AE5BC2873E9
Abstract

Knowledge of the surface composition of planetary bodies comes from a number of sources; such as landers, remote sensing and meteorites. However, the bulk mapping of the composition of planetary surfaces has been undertaken by analysis of reflected sunlight and these data-principally collected in the near-infra-red (IR) region-are notoriously broad and ambiguous. Hence, if laboratory spectra could be tied to physical properties measurements, such as diffraction, this would substantially aid our understanding of processes occurring in these extra-terrestrial environments. This contribution presents the capability of collecting near-IR data at the same time as neutron and synchrotron X-ray diffraction in a range of conditions (low temperature, vacuum, and humidity variations) and highlights two examples where this capability could enhance our understanding of planetary surfaces.

KeywordsNear-IR spectroscopy; Neutron; Planetary; Synchrotron
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FunderAmerican Clinical Neurophysiology Society
Byline AffiliationsAustralian Nuclear Science and Technology Organisation
University of Newcastle
Australian Synchrotron, Australia
University of New South Wales
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