Journal of Analytical Science and Technology (May 2024)

Development of non-destructive isotope measurement of the natural galena (PbS) using negative muon beams

  • K. Terada,
  • K. Ninomiya,
  • A. Sato,
  • D. Tomono,
  • Y. Kawashima,
  • M. Inagaki,
  • A. Nambu,
  • T. Kudo,
  • T. Osawa,
  • M. K. Kubo

DOI
https://doi.org/10.1186/s40543-024-00440-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract In Earth and planetary science, Pb isotopic composition is well known to play a key role in deciphering the origin and evolution of materials because they provide unique chronological and/or indigenous regional information as a radiogenic daughter nuclide from U and Th. To determine such an isotopic composition, mass spectrometers have been widely used over several decades, which requires a destructive/consuming treatment such as sputtering, laser ablation and thermal ionization. Here, we first report the non-destructive Pb isotopic measurement of natural galena (PbS) using the energy shift of muon-induced characteristic X-rays. The observed Pb isotopic composition of the natural galena is in good agreement with that obtained by conventional mass spectrometry. Such a muon-based Pb isotopic analysis method is expected to be applied to identify the production area of archaeological artefacts (e.g. bronze products), where non-destructive analysis is highly desirable compared to conventional mass spectrometry.

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