Apollo Next Generation Sample Analysis (ANGSA): an Apollo Participating Scientist Program to Prepare the Lunar Sample Community for Artemis

C. K. Shearer; F. M. McCubbin; S. A. Eckley; S. B. Simon; A. P. Meshik; Francesca McDonald; H. H. Schmitt; R. A. Zeigler; Jill Gross; John Mitchell; C. H. Krysher; R. V. Morris; Rita Parai; B. L. Jolliff; J. J. Gillis‐Davis; K. H. Joy; S. K. Bell; P. G. Lucey; Lingzhi Sun; Z. D. Sharp; C. A. Dukes; A. Sehlke; A. Mosie; J. Allton; C. Amick; Justin I. Simon; Timmons M. Erickson; Jessica Barnes; M. D. Dyar; Katherine Burgess; N. E. Petro; D. P. Moriarty; Noirin Curran; Jamie E. Elsila; Roberto A. Colina‐Ruiz; Thomas Kröll; D. Sokaras; H. A. Ishii; J. P. Bradley; D. F. Sears; B. A. Cohen; O. V. Pravdivseva; Mary Thompson; C. R. Neal; R. Hana; Richard A. Ketcham; K. C. Welten; the ANGSA science team

doi:10.1007/s11214-024-01094-x

Apollo Next Generation Sample Analysis (ANGSA): an Apollo Participating Scientist Program to Prepare the Lunar Sample Community for Artemis

C. K. Shearer(University of New Mexico), F. M. McCubbin(Johnson Space Center), S. A. Eckley(Johnson Space Center), S. B. Simon(University of New Mexico), A. P. Meshik(Washington University in St. Louis), Francesca McDonald(European Space Research and Technology Centre), H. H. Schmitt(University of Wisconsin–Madison), R. A. Zeigler(Johnson Space Center), Jill Gross(Johnson Space Center), John Mitchell(Johnson Space Center), C. H. Krysher(Johnson Space Center), R. V. Morris(Johnson Space Center), Rita Parai(Washington University in St. Louis), B. L. Jolliff(Washington University in St. Louis), J. J. Gillis‐Davis(Washington University in St. Louis), K. H. Joy(University of Manchester), S. K. Bell(University of Manchester), P. G. Lucey(University of Hawaiʻi at Mānoa), Lingzhi Sun(University of Hawaiʻi at Mānoa), Z. D. Sharp(University of New Mexico), C. A. Dukes(University of Virginia), A. Sehlke(Ames Research Center), A. Mosie(Johnson Space Center), J. Allton(Johnson Space Center), C. Amick(Johnson Space Center), Justin I. Simon(Johnson Space Center), Timmons M. Erickson(Johnson Space Center), Jessica Barnes(University of Arizona), M. D. Dyar(Mount Holyoke College), Katherine Burgess(United States Naval Research Laboratory), N. E. Petro(Goddard Space Flight Center), D. P. Moriarty(Goddard Space Flight Center), Noirin Curran(Goddard Space Flight Center), Jamie E. Elsila(Goddard Space Flight Center), Roberto A. Colina‐Ruiz(SLAC National Accelerator Laboratory), Thomas Kröll(SLAC National Accelerator Laboratory), D. Sokaras(SLAC National Accelerator Laboratory), H. A. Ishii(University of Hawaiʻi at Mānoa), J. P. Bradley(University of Hawaiʻi at Mānoa), D. F. Sears(Ames Research Center), B. A. Cohen(Goddard Space Flight Center), O. V. Pravdivseva(Washington University in St. Louis), Mary Thompson(Purdue University West Lafayette), C. R. Neal(University of Notre Dame), R. Hana(The University of Texas at Austin), Richard A. Ketcham(The University of Texas at Austin), K. C. Welten(University of California, Berkeley), the ANGSA science team

Space Science Reviews

August 20, 2024

10.1007/s11214-024-01094-x

Cited by 20Open Access

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Abstract

As a first step in preparing for the return of samples from the Moon by the Artemis Program, NASA initiated the Apollo Next Generation Sample Analysis Program (ANGSA). ANGSA was designed to function as a low-cost sample return mission and involved the curation and analysis of samples previously returned by the Apollo 17 mission that remained unopened or stored under unique conditions for 50 years. These samples include the lower portion of a double drive tube previously sealed on the lunar surface, the upper portion of that drive tube that had remained unopened, and a variety of Apollo 17 samples that had remained stored at −27 °C for approximately 50 years. ANGSA constitutes the first preliminary examination phase of a lunar “sample return mission” in over 50 years. It also mimics that same phase of an Artemis surface exploration mission, its design included placing samples within the context of local and regional geology through new orbital observations collected since Apollo and additional new “boots-on-the-ground” observations, data synthesis, and interpretations provided by Apollo 17 astronaut Harrison Schmitt. ANGSA used new curation techniques to prepare, document, and allocate these new lunar samples, developed new tools to open and extract gases from their containers, and applied new analytical instrumentation previously unavailable during the Apollo Program to reveal new information about these samples. Most of the 90 scientists, engineers, and curators involved in this mission were not alive during the Apollo Program, and it had been 30 years since the last Apollo core sample was processed in the Apollo curation facility at NASA JSC. There are many firsts associated with ANGSA that have direct relevance to Artemis. ANGSA is the first to open a core sample previously sealed on the surface of the Moon, the first to extract and analyze lunar gases collected in situ, the first to examine a core that penetrated a lunar landslide deposit, and the first to process pristine Apollo samples in a glovebox at −20 °C. All the ANGSA activities have helped to prepare the Artemis generation for what is to come. The timing of this program, the composition of the team, and the preservation of unopened Apollo samples facilitated this generational handoff from Apollo to Artemis that sets up Artemis and the lunar sample science community for additional successes.

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