$g$-factor of Boronlike Argon $^{40}\textrm{Ar}^{13+}$

g$-factor of Boronlike Argon $^{40}\textrm{Ar}^{13+}

We have measured the ground-state $g$-factor of boronlike argon $^{40}\textrm{Ar}^{13+}$ with a fractional uncertainty of \SI{1.4e-9}{} with a single ion in the newly developed ALPHATRAP double Penning-trap setup. The here obtained value of $g=0.663\,648\,455\,32(93)$ is in agreement with our theore...

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Hauptverfasser:	Arapoglou, I, Egl, A, Höcker, M, Sailer, T, Tu, B, Weigel, A, Wolf, R, Cakir, H, Yerokhin, V. A, Oreshkina, N. S, Agababaev, V. A, Volotka, A. V, Zinenko, D. V, Glazov, D. A, Harman, Z, Keitel, C. H, Sturm, S, Blaum, K
Format:	Artikel
Sprache:	eng
Schlagworte:	Physics - Atomic Physics
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Zusammenfassung:	We have measured the ground-state $g$-factor of boronlike argon $^{40}\textrm{Ar}^{13+}$ with a fractional uncertainty of \SI{1.4e-9}{} with a single ion in the newly developed ALPHATRAP double Penning-trap setup. The here obtained value of $g=0.663\,648\,455\,32(93)$ is in agreement with our theoretical prediction of $0.663\,648\,12(58)$. The latter is obtained accounting for quantum electrodynamics, electron correlation, and nuclear effects within the state-of-the-art theoretical methods. Our experimental result distinguishes between existing predictions that are in disagreement, and lays the foundations for an independent determination of the fine-structure constant.
DOI:	10.48550/arxiv.1906.00881