Coulomb excitation of 107Sn

Authors :: T. Davinson
Marcus Scheck
J. Iwanicki
V. Bildstein
Herbert Hess
Jan Taprogge
K. Geibel
Kathrin Wimmer
M. Albers
A. Blazhev
R. Lutter
M. Seidlitz
Andreas Ekström
Joakim Cederkäll
Douglas D. DiJulio
Jan Diriken
Iain Darby
D. Voulot
Roman Gernhäuser
F. Wenander
Gry Merete Tveten
Andreas Görgen
Ch. Fransen
Morten Hjorth-Jensen
Claes Fahlander
P. Reiter
H. De Witte
J. Van de Walle
Sunniva Siem
N. Warr
Source :: The European Physical Journal A. 48(7)
Publisher :: Springer Nature
Abstract: The radioactive isotope 107Sn was studied using Coulomb excitation at the REX-ISOLDE facility at CERN. This is the lightest odd-Sn nucleus examined using this technique. The reduced transition probability of the lowest-lying 3/2+ state was measured and is compared to shell-model predictions based on several sets of single-neutron energies relative to 100Sn. Similar to the transition probabilities for the 2+ states in the neutron-deficient even-even Sn nuclei, the measured value is underestimated by shell-model calculations. Part of the strength may be recovered by considering the ordering of the d5/2 and g7/2 single-neutron states. ispartof: European Physical Journal A, Hadrons and Nuclei vol:48 issue:7 status: published