Bulletin of the American Physical Society
2024 Fall Meeting of the APS Division of Nuclear Physics
Sunday–Thursday, October 6–10, 2024; Boston, Massachusetts
Session K06: Nuclear Astrophysics I
10:30 AM–12:06 PM,
Wednesday, October 9, 2024
Hilton Boston Park Plaza
Room: Copley & Kenmore, Lobby Level
Chair: Andrea Richard, Ohio University
Abstract: K06.00008 : Enhanced Sensitivity in the Detection of 129I Using Accelerator Mass Spectrometry at the University of Notre Dame*
11:54 AM–12:06 PM
Presenter:
David Lund
(University of Notre Dame)
Authors:
David Lund
(University of Notre Dame)
Calvin M Bacall
(University of Notre Dame)
Thomas L Bailey
(University of Notre Dame)
Philippe A. Collon
(University of Notre Dame)
Griffin Robert Mulcahy
(University of Notre Dame)
William Peeler
(University of Notre Dame)
129I, with a half-life of 15.7 million years, serves critical roles ranging from an environmental tracer of fission products to a significant marker in nuclear astrophysics. Due to its low natural terrestrial abundance (about one part per trillion), accelerator mass spectrometry (AMS) offers a robust method for its detection, distinguishing its signal from the stable isotope 127I in aqueous samples. Advancements in our beamline configuration and time-of-flight detection systems at the University of Notre Dame’s Nuclear Science Laboratory have increased our measurement sensitivity for 129I. This study presents a comprehensive analysis of reference standards, highlighting the enhanced detection capabilities achieved. The modifications to the AMS system, improved time-of-flight resolution, detailed analysis results, and implications for environmental and astrophysical applications will be discussed. In particular, we will highlight our collaboration with the nuclear theory group at Notre Dame, and how future experiments may be used to build upon advancements made by Wang et al. (2021, 2023) on the understanding of certain astrophysical processes (Wang, X., Clark, A. M., Ellis, J., et al. 2021, r-Process Radioisotopes from Near-Earth Supernovae and Kilonovae), (Wang, X., Clark, A. M., Ellis, J., et al. 2023, Proposed Lunar Measurements of r-process Radioisotopes to Distinguish the Origin of Deep-sea 244Pu).
*This work is supported by the National Science Foundation Grant No. NSF PHY-2011890.
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