Study of the hyperfine structure of antiprotonic helium

The metastable states of antiprotonic helium have a unique magnetic substructure called hyperfine structure, arising from the coupling of the large angular momentum of the antiproton ( l∼35) with the electron and antiproton spins. We designed, developed and performed a laser-microwave-laser resonanc...

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Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2004, Vol.214, p.89-93
Main Authors: Sakaguchi, J, Eades, J, Hayano, R.S, Hori, M, Horváth, D, Ishikawa, T, Juhász, B, Torii, H.A, Widmann, E, Yamaguchi, H, Yamazaki, T
Format: Article
Language:English
Subjects:
Antiprotonic helium
Hyperfine structure
Microwave spectroscopy
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Summary:The metastable states of antiprotonic helium have a unique magnetic substructure called hyperfine structure, arising from the coupling of the large angular momentum of the antiproton ( l∼35) with the electron and antiproton spins. We designed, developed and performed a laser-microwave-laser resonance spectroscopy experiment to investigate this hyperfine structure. We observed two microwave transitions, and the measured frequencies agree well with recent theoretical calculations. To investigate possible collision-induced shifts of the transition frequencies, we measured the microwave transition frequencies at two different target densities. Within the limited statistics, we did not observe a clear sign of a density shift, in accordance with a theoretical estimate by Korenman. When averaging the transition frequencies over the density, we reach an agreement of about 60 ppm with the three-body QED calculations, which is of the same order than the accuracy of the calculations, and slightly larger than the experimental precision.
ISSN:0168-583X
1872-9584
DOI:10.1016/j.nimb.2003.08.013