Research-Grade 3D Virtual Astromaterials Samples: Novel Visualization of NASA's Apollo Lunar Samples and Antarctic Meteorite Samples to Benefit Curation, Research, and Education

NASA's vast and growing collections of astromaterials are both scientifically and culturally significant, requiring unique preservation strategies that need to be recurrently updated to contemporary technological capabilities and increasing accessibility demands. New technologies have made it p...

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Bibliographic Details
Main Authors: Oshel, E. R., Evans, C. A., Beaulieu, K. R., Blumenfeld, E. H., Righter, K., Zeigler, R. A., Hanna, R. D., Liddle, D. A., Ketcham, R. A.
Format: Other/Unknown Material
Language:unknown
Published: 2017
Subjects:
Instrumentation and Photography
Lunar and Planetary Science and Exploration
Antarctic
Antarc*
Online Access:http://hdl.handle.net/2060/20170001695
Description
Summary:NASA's vast and growing collections of astromaterials are both scientifically and culturally significant, requiring unique preservation strategies that need to be recurrently updated to contemporary technological capabilities and increasing accessibility demands. New technologies have made it possible to advance documentation and visualization practices that can enhance conservation and curation protocols for NASA's Astromaterials Collections. Our interdisciplinary team has developed a method to create 3D Virtual Astromaterials Samples (VAS) of the existing collections of Apollo Lunar Samples and Antarctic Meteorites. Research-grade 3D VAS will virtually put these samples in the hands of researchers and educators worldwide, increasing accessibility and visibility of these significant collections. With new sample return missions on the horizon, it is of primary importance to develop advanced curation standards for documentation and visualization methodologies.

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