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Q: Fachverband Quantenoptik und Photonik

Q 59: Lasers II

Q 59.2: Vortrag

Freitag, 15. März 2024, 11:15–11:30, HS 1015

Methods for focusing VUV laser light onto a single ²²⁹Th ion — •Tamila Rozibakieva¹, Irtiza M. Hussain¹, Lilli Löbell¹, Daniel Moritz¹, Kevin Scharl¹, Johannes Weitenberg², Markus Wiesinger¹, Stephan H. Wissenberg², and Peter G. Thirolf¹ — ¹Ludwig-Maximilians-Universität München (LMU) — ²Fraunhofer Institute for Laser Technology (ILT), Aachen

Direct frequency-comb spectroscopy is a promising way for narrow-band nuclear laser excitation. The combination of a VUV frequency comb being developed at Fraunhofer ILT and a cryogenic Paul trap set up at LMU Munich as part of the ERC synergy project "Thorium Nuclear Clock", will enable us to excite the isomeric first excited state in ²²⁹Th using laser radiation of 148.7 nm wavelength, an important step towards the realization of a nuclear clock that can be used to search for new physics beyond the standard model. For the single-ion nuclear clock, a laser-cooled ²²⁹Th³⁺ ion must be irradiated with a single mode of a frequency comb with narrow bandwidth. When focusing to a spot with a diameter of 3 µm, we envisage sufficient laser radiation intensity for driving nuclear Rabi oscillations. For such tight focusing of a VUV beam on a single ion, it is important to choose the proper optical elements that minimize optical aberrations and power losses due to interaction with optical materials. Different methods and simulations for focusing a VUV beam down to 3 µm, such as a spherical mirror, an off-axis parabolic mirror and an achromatic lens, will be presented. Funding: ERC Synergy project, Grant Agreement No. 856415 and BaCaTec (grant 7-2029-2).

Keywords: VUV radiation; Focusing on a single ion; 229Th; Nuclear laser excitation; Nuclear Clock