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Beta decay of 103Sn

Authors :: M. La Commara
A. Jungclaus
S. Muralithar
F. Becker
M. Kavatsyuk
W. Brüchle
C. Plettner
A. Blazhev
J. Döring
A. Banu
A. Płochocki
I. Mukha
Z. Janas
Matthias Schädel
E. Roeckl
O. Kavatsyuk
C. Mazzocchi
M. Romoli
S. K. Mandal
J. Żylicz
Ronald Schwengner
T. Faestermann
M. Karny
R. Kirchner
L. Batist
M. Górska
H. Grawe
O., Kavatsyuk
M., Kavatsyuk
L., Batist
A., Banu
F., Becker
A., Blazhev
W., Brüchle
J., Döring
T., Faestermann
M., Górska
H., Grawe
Z., Jana
A., Jungclau
M., Karny
R., Kirchner
LA COMMARA, Marco
S., Mandal
C., Mazzocchi
I., Mukha
S., Muralithar
C., Plettner
A., Płochocki
E., Roeckl
M., Romoli
M., Schädel
R., Schwengner
J., Żylicz
Source :: European Physical Journal A 25(2005)2, 211-222
Publication Year :: 2005
Abstract: The β decay of 103Sn, a three-neutron-particle nucleus with respect to the 100Sn core, was investigated at the GSI on-line mass separator using an array of 17 germanium crystals and a total absorption spectrometer. A total of 31 β-delayed γ-rays (29 new) of the 103Sn →103 In decay were observed and, on the basis of β-γ-γ coincidences, the 103Sn decay scheme was established for the first time. By means of total absorption spectroscopy, β intensities, the Gamow-Teller strength distribution and the summed Gamow-Teller strength value of 3.5±0.5 were determined for this decay. Its half-life and QEC value were found to be 7.0±0.2 s and 7.64±0.7 MeV, respectively. The β-delayed proton branching ratio was measured to be 1.2±0.1%. The results are discussed in comparison with shell-model predictions based on realistic and empirical interactions.