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Beta decay of 101Sn

Authors :
L. Batist
M. Schädel
F. Becker
A. Płochocki
T. Faestermann
J. Döring
W. Brüchle
I. Mukha
M. Karny
Z. Janas
O. Kavatsyuk
M. La Commara
A. Jungclaus
M. Romoli
A. Blazhev
M. Górska
C. Plettner
J. Żylicz
M. Kavatsyuk
R. Kirchner
H. Grawe
K.-H. Schmidt
C. Mazzocchi
A. Banu
Ronald Schwengner
O. Klepper
E. Roeckl
K. P. Rykaczewski
K. Miernik
O., Kavatsyuk
C., Mazzocchi
Z., Jana
A., Banu
L., Batist
F., Becker
A., Blazhev
W., Brüchle
J., Döring
T., Faestermann
M., Górska
H., Grawe
A., Jungclau
M., Karny
M., Kavatsyuk
O., Klepper
R., Kirchner
LA COMMARA, Marco
K., Miernik
I., Mukha
C., Plettner
A., Płochocki
E., Roeckl
M., Romoli
K., Rykaczewski
M., Schädel
K., Schmidt
R., Schwengner
J., Żylicz
Publication Year :
2007

Abstract

The β decay of the very neutron-deficient isotope 101Sn was studied at the GSI on-line mass separator using silicon detectors for recording charged particles and germanium detectors for γ-ray spectroscopy. Based on the β-delayed proton data the production cross-section of 101Sn in the 50Cr + 58Ni fusion-evaporation reaction was determined to be about 60nb. The half-life of 101Sn was measured to be 1.9(3)s. For the first time β-delayed γ-rays of 101Sn were tentatively identified, yielding weak evidence for a cascade of 352 and 1065keV transitions in 101In. The results for the 101Sn decay as well as those from previous work on the 103Sn decay are discussed by comparing them to predictions obtained from shell model calculations employing a new interaction in the 88Sr to 132Sn model space.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....f93ef58173f03c0798a863a5dd3291d9