³He中精细结构分裂的高阶量子电动力学修正

Higher-Order QED Corrections to the Hyperfine Splitting in ^{3}He.

作者信息

Patkóš Vojtěch, Yerokhin Vladimir A, Pachucki Krzysztof

机构信息

Charles University, Ke Karlovu 3, 121 16 Prague 2, Czech Republic.

Max-Planck-Institut für Kernphysik, Saupfercheckweg 1, 69117 Heidelberg, Germany.

出版信息

Phys Rev Lett. 2023 Nov 3;131(18):183001. doi: 10.1103/PhysRevLett.131.183001.

DOI:10.1103/PhysRevLett.131.183001

PMID:37977610

Abstract

We present a calculation of the hyperfine splitting of the 2^{3}S state in the ^{3}He atom with inclusion of all QED effects up to α^{3}E_{F}, where E_{F} is the Fermi splitting. Using the experimental value of the 1S hyperfine splitting in ^{3}He^{+}, we eliminate uncertainties from the nuclear structure and obtain the theoretical prediction for ^{3}He of ν_{hfs}=-6 739 701 181(41) Hz, which is in perfect agreement with the experimental value -6 739 701 177(16) Hz [S. D. Rosner and F. M. Pipkin, Phys. Rev. A 1, 571 (1970)PLRAAN0556-279110.1103/PhysRevA.1.571]. This result constitutes a 40-fold improvement in precision as compared to the previous value and is the most accurate theoretical prediction ever obtained for a nonhydrogenic system.

摘要

我们给出了³He原子中2³S态超精细分裂的计算结果，其中包含了直至α³EF的所有量子电动力学效应，这里EF是费米分裂。利用³He⁺中1S超精细分裂的实验值，我们消除了核结构带来的不确定性，并得到³He的超精细频率νhfs = -6 739 701 181(41) Hz的理论预测值，该值与实验值-6 739 701 177(16) Hz [S. D. 罗斯纳和F. M. 皮普金，《物理评论A》1, 571 (1970)PLRAAN0556 - 279110.1103/PhysRevA.1.571] 完全一致。与之前的值相比，这一结果在精度上提高了40倍，并且是对非氢体系所获得的最精确的理论预测。

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³He中精细结构分裂的高阶量子电动力学修正

Higher-Order QED Corrections to the Hyperfine Splitting in ^{3}He.

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