Masses and Charge Radii of Ne17-22 and the Two-Proton-Halo Candidate Ne-17

Masses and Charge Radii of Ne17-22 and the Two-Proton-Halo Candidate Ne-17

High-precision mass and charge radius measurements on Ne17-22, including the proton-halo candidate Ne-17, have been performed with Penning trap mass spectrometry and collinear laser spectroscopy. The Ne-17 mass uncertainty is improved by factor 50, and the charge radii of Ne17-19 are determined for...

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Veröffentlicht in:Physical review letters 2008-12, Vol.101
Hauptverfasser: Geithner, W., Neff, T., Audi, G., Blaum, K., Delahaye, P., Feldmeier, H., George, S., Guenaut, C., Herfurth, F., Herlert, A., Kappertz, S., Keim, M., Kellerbauer, A., Kluge, H.-J., Kowalska, M., Lievens, P., Lunney, D., Marinova, K., Neugart, R., Schweikhard, L., Wilbert, S., Yazidjian, C.
Format: Artikel
Sprache:eng
Schlagworte:
Nuclear Experiment
Physics
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Zusammenfassung:High-precision mass and charge radius measurements on Ne17-22, including the proton-halo candidate Ne-17, have been performed with Penning trap mass spectrometry and collinear laser spectroscopy. The Ne-17 mass uncertainty is improved by factor 50, and the charge radii of Ne17-19 are determined for the first time. The fermionic molecular dynamics model explains the pronounced changes in the ground-state structure. It attributes the large charge radius of Ne-17 to an extended proton configuration with an s(2) component of about 40%. In Ne-18 the smaller radius is due to a significantly smaller s(2) component. The radii increase again for Ne19-22 due to cluster admixtures.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.101.252502