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A: Fachverband Atomphysik

A 19: Precision Spectroscopy of Atoms and Ions II (joint session A/Q)

A 19.6: Vortrag

Mittwoch, 13. März 2024, 12:15–12:30, HS 1098

A Cryogenic Paul Trap Experiment for Laser Spectroscopy of the ^229mTh Nuclear Clock Isomer — •Kevin Scharl¹, Georg Holthoff¹, Mahmood I. Hussain¹, Markus Wiesinger¹, Daniel Moritz¹, Lilli Löbell¹, Tamila Rozibakieva¹, Sandro Kraemer^1,2, Benedict Seiferle¹, Shiqian Ding³, Florian Zacherl¹, and Peter G. Thirolf¹ — ¹LMU Munich — ²KU Leuven, Belgium — ³Tsinghua University, Beijing, China

²²⁹Th plays a unique role in the nuclear landscape because of its low-lying isomeric first excited state at 8.338 ± 0.024 eV, thus accessible via modern VUV-laser systems. A nuclear clock based on the thorium isomer holds promise not only to push the limits of high-precision time keeping, but also to contribute to dark matter and other fundamental physics research as a novel type of quantum sensor.

The cryogenic Paul trap experiment currently operated at the LMU Munich is primarily designed for long ion storage times, which allows to measure the still unknown ionic lifetime of the isomer. This quantity is expected to be several thousands of seconds and is essential for the realization of a nuclear frequency standard. In a second step, the setup will be a platform for VUV spectroscopy of the isomer, paving the way towards a first nuclear clock prototype.

In this talk, the building blocks of the experimental setup for trapping and sympathetic laser cooling of ²²⁹Th³⁺ by ⁸⁸Sr⁺ are presented and the status of first preparatory measurements is discussed.

This work was supported by the European Research Council (ERC) (Grant agreement No. 856415) and BaCaTec (7-2019-2).