In-beam measurement of the hydrogen hyperfine splitting - towards antihydrogen spectroscopy

Antihydrogen, the lightest atom consisting purely of antimatter, is an ideal laboratory to study the CPT symmetry by comparison to hydrogen. With respect to absolute precision, transitions within the ground-state hyperfine structure (GS-HFS) are most appealing by virtue of their small energy separat...

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Bibliographic Details
Published in:arXiv.org 2016-10
Main Authors: Diermaier, M, Jepsen, C B, Kolbinger, B, Malbrunot, C, Massiczek, O, Sauerzopf, C, Simon, M C, Zmeskal, J, Widmann, E
Format: Article
Language:English
Subjects:
Antihydrogen
Antimatter
Experiments
Hydrogen
Hyperfine structure
Matter & antimatter
Spectrum analysis
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Summary:Antihydrogen, the lightest atom consisting purely of antimatter, is an ideal laboratory to study the CPT symmetry by comparison to hydrogen. With respect to absolute precision, transitions within the ground-state hyperfine structure (GS-HFS) are most appealing by virtue of their small energy separation. ASACUSA proposed employing a beam of cold antihydrogen atoms in a Rabi-type experiment to determine the GS-HFS in a field-free region. Here we present a measurement of the zero-field hydrogen GS-HFS using the spectroscopy apparatus of ASACUSA's antihydrogen experiment. The measured value of \(\nu_\mathrm{HF}\)=\(1~420~405~748.4(3.4)(1.6)~\textrm{Hz}\) with a relative precision of $\Delta$$\nu_\mathrm{HF}\(/\)\nu_\mathrm{HF}\(=\)2.7\times10^{-9}\( constitutes the most precise determination of this quantity in a beam and verifies the developed spectroscopy methods for the antihydrogen HFS experiment to the ppb level. Together with the recently presented observation of antihydrogen atoms \)2.7~\textrm{m}$ downstream of the production region, the prerequisites for a measurement with antihydrogen are now available within the ASACUSA collaboration.
ISSN:2331-8422
DOI:10.48550/arxiv.1610.06392