The Mass of $^{22}Mg

The Mass of $^{22}Mg

Mass measurements with a relative precision of better than 1.5×10–8 were performed on 22Mg and its reaction partners 21Na and 22Na with the ISOLTRAP Penning trap mass spectrometer at CERN, yielding the mass excesses D(22Mg) = –399.92(27) keV, D(21Na) = –2184.71(21) keV, and D(22Na) = –5181.56(16) ke...

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Veröffentlicht in:Physical review letters 2004-10, Vol.93
Hauptverfasser: Mukherjee, M., Kellerbauer, A. G., Beck, D., Blaum, K., Bollen, G., Carrel, F., Delahaye, P., Dilling, J., George, S., Guenaut, C., Herfurth, F., Herlert, A., Kluge, H. J., Köster, Ulli, Lunney, D., Schwarz, S., Schweikhard, L., Yazidjian, C.
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container_title Physical review letters
container_volume 93
creator Mukherjee, M.
Kellerbauer, A. G.
Beck, D.
Blaum, K.
Bollen, G.
Carrel, F.
Delahaye, P.
Dilling, J.
George, S.
Guenaut, C.
Herfurth, F.
Herlert, A.
Kluge, H. J.
Köster, Ulli
Lunney, D.
Schwarz, S.
Schweikhard, L.
Yazidjian, C.
description Mass measurements with a relative precision of better than 1.5×10–8 were performed on 22Mg and its reaction partners 21Na and 22Na with the ISOLTRAP Penning trap mass spectrometer at CERN, yielding the mass excesses D(22Mg) = –399.92(27) keV, D(21Na) = –2184.71(21) keV, and D(22Na) = –5181.56(16) keV. The importance of these results is twofold. First, a comparative half-life (Ft value) has been obtained for the superallowed beta decay of 22Mg to further test the conserved-vector-current hypothesis. Second, the resonance energy for the 21Na proton capture reaction has been independently determined, allowing direct comparisons of observable gamma radiation in nova explosions with the yield expected from models.
doi_str_mv 10.1103/PhysRevLett.93.150801
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subjects Nuclear Experiment
Physics
title The Mass of $^{22}Mg
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