| ID | 68695 |
| FullText URL | |
| Author |
Takatori, S.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Pimon, M.
Faculty of Physics, TU Wien
Pollitt, S.
Faculty of Physics, TU Wien
Bartokos, M.
Faculty of Physics, TU Wien
Beeks, K.
Faculty of Physics, TU Wien
Grueneis, A.
Faculty of Physics, TU Wien
Hiraki, T.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Honma, T.
Japan Synchrotron Radiation Research Institute
Hosseini, N.
Faculty of Physics, TU Wien
Leitner, A.
Faculty of Physics, TU Wien
Masuda, T.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Morawetz, I
Faculty of Physics, TU Wien
Nitta, K.
Japan Synchrotron Radiation Research Institute
Okai, K.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Riebner, T.
Faculty of Physics, TU Wien
Schaden, F.
Faculty of Physics, TU Wien
Schumm, T.
Faculty of Physics, TU Wien
Sekizawa, O.
Japan Synchrotron Radiation Research Institute
Sikorsky, T.
Faculty of Physics, TU Wien
Takahashi, Y.
Department of Earth and Planetary Science, The University of Tokyo
De Col, Col, L. Toscani
Faculty of Physics, TU Wien
Yamamoto, R.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Yomogida, T.
Department of Earth and Planetary Science, The University of Tokyo
Yoshimi, A.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
Yoshimura, K.
Research Institute for Interdisciplinary Science (RIIS), Okayama University
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| Abstract | Recent advancements in laser excitation of the low-energy thorium-229 (229Th) nuclear isomeric state in calcium fluoride (CaF2) single crystals render this system a promising candidate for a solid-state nuclear clock. Nonetheless, the precise experimental determination of the microscopic ion configuration surrounding the doped 229Th and its electronic charge state remains a critical challenge. Such characterization is essential for precisely controlling the clock transition and evaluating the performance of this solid-state nuclear clock system. In this study, we use x-ray absorption fine structure spectroscopy of 229Th:CaF2 to investigate the charge state and coordination environment of doped 229Th. The results indicate that 229Th displays a 4+ oxidation state at the substitutional site of a Ca2+ ion, with charge compensated provided by two F− ions positioned at interstitial sites adjacent to 229Th.
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| Keywords | solid-state nuclear clock
thorium-229
XAFS
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| Published Date | 2025-04-28
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| Publication Title |
New Journal of Physics
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| Volume | volume27
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| Issue | issue4
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| Publisher | IOP Publishing
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| Start Page | 043024
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| ISSN | 1367-2630
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| Content Type |
Journal Article
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| language |
English
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| OAI-PMH Set |
岡山大学
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| Copyright Holders | © 2025 The Author(s).
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| File Version | publisher
|
| DOI | |
| Web of Science KeyUT | |
| Related Url | isVersionOf https://doi.org/10.1088/1367-2630/adce22
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| License | https://creativecommons.org/licenses/by/4.0/
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| Citation | S Takatori et al 2025 New J. Phys. 27 043024
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| Funder Name |
Japan Society for the Promotion of Science
Ministry of Education, Culture, Sports, Science and Technology
Okayama University
European Research Council
Austrian Science Fund
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| 助成番号 | JP21H04473
JP22K20371
JP23K13125
JP24K00646
JP24KJ0168
JP24H00228
856415
101087184
|
