Setup for the Ionic Lifetime Measurement of the 229mTh3+ Nuclear Clock Isomer

Kevin Scharl*, Shiqian Ding, Georg Holthoff, Mahmood Irtiza Hussain, Sandro Kraemer, Lilli Löbell, Daniel Moritz, Tamila Rozibakieva, Benedict Seiferle, Florian Zacherl, Peter G. Thirolf*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

For the realization of an optical nuclear clock, the first isomeric excited state of thorium229 (Th-229m) is currently the only candidate due to its exceptionally low-lying excitation energy (8.338 +/- 0.024 eV). Such a nuclear clock holds promise not only to be a very precise metrological device but also to extend the knowledge of fundamental physics studies, such as dark matter research or variations in fundamental constants. Considerable progress was achieved in recent years in characterizing 229mTh from its first direct identification in 2016 to the only recent observation of the long-sought-after radiative decay channel. So far, nuclear resonance as the crucial parameter of a nuclear frequency standard has not yet been determined with laser-spectroscopic precision. To determine another yet unknown basic property of the thorium isomer and to further specify the linewidth of its ground-state transition, a measurement of the ionic lifetime of the isomer is in preparation. Theory and experimental investigations predict the lifetime to be 10(3)-10(4) s. To precisely target this property using hyperfine structure spectroscopy, an experimental setup is currently being commissioned at LMU Munich. It is based on a cryogenic Paul trap providing long-enough storage times for Th-229m ions, that will be sympathetically cooled with Sr-88(+). This article presents a concept for an ionic lifetime measurement and discusses the laser-optical part of a setup specifically developed for this purpose.
Original languageEnglish
Article number108
Number of pages16
JournalAtoms
Volume11
Issue number7
DOIs
Publication statusPublished - Jul 2023
Externally publishedYes

Keywords

  • 229-thorium
  • Laser cooling
  • Laser spectroscopy
  • Nuclear clock

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