Paving the way for fundamental physics tests with singly-ionized helium

Proceedings of International Conference on Precision Physics and Fundamental Physical Constants — PoS(FFK2019) Pub Date : 2019-10-15 DOI:10.22323/1.353.0049

J. Krauth, L. S. Dreissen, C. Roth, E. L. Grundeman, M. Collombon, M. Favier, K. Eikema

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引用次数: 6

Abstract

High-precision laser spectroscopy of atomic hydrogen has led to an impressive accuracy in tests of bound-state quantum electrodynamics (QED). At the current level of accuracy many systematics have to be studied very carefully and only independent measurements provide the ultimate cross-check. This has been proven recently by measurements in muonic hydrogen, eventually leading to a significant shift of the CODATA recommended values of the proton charge radius and the Rydberg constant. We aim to contribute to tests of fundamental physics by measuring the 1S-2S transition in the He$^+$ ion for the first time. Combined with measurements in muonic helium ions this can probe the value of the Rydberg constant, test higher-order QED terms, or set benchmarks for ab initio nuclear polarizability calculations. We extend the Ramsey-comb spectroscopy method to the XUV using high-harmonic generation in order to excite a single, trapped He$^+$ ion.

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为用单电离氦进行基础物理测试铺平了道路

原子氢的高精度激光光谱学在束缚态量子电动力学(QED)测试中取得了令人印象深刻的准确性。在目前的精度水平上，许多系统必须非常仔细地研究，只有独立的测量才能提供最终的交叉检查。最近对介子氢的测量证明了这一点，最终导致CODATA推荐的质子电荷半径和里德伯常数的值发生了重大变化。我们的目标是通过首次测量He$^+$离子中的1S-2S跃迁，为基础物理的测试做出贡献。结合对μ氦离子的测量，这可以探测里德伯常数的值，测试高阶QED项，或为从头计算核极化率设定基准。我们将拉姆齐梳谱法扩展到XUV，利用高谐波产生来激发单个被捕获的He$^+$离子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of International Conference on Precision Physics and Fundamental Physical Constants — PoS(FFK2019)

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