Sub-Barrier Coulomb Excitation of $^{110}$Sn and Its Implications for the $^{100}$Sn Shell Closure

Sub-Barrier Coulomb Excitation of $^{110}$Sn and Its Implications for the $^{100}$Sn Shell Closure

The first excited 2+ state of the unstable isotope 110Sn has been studied in safe Coulomb excitation at 2.82 MeV/u using the MINIBALL array at the REX-ISOLDE post accelerator at CERN. This is the first measurement of the reduced transition probability of this state using this method for a neutron de...

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Veröffentlicht in:Physical review letters 2007, Vol.98 (17)
Hauptverfasser: Cederkäll, J., Ekström, A., Fahlander, C., Hurst, A.M., Hjorth-Jensen, M., Ames, F., Banu, A., Butler, P.A., Davinson, T., Datta Pramanik, U., Eberth, J., Franchoo, S., Georgiev, G., Górska, M., Habs, D., Huyse, M., Ivanov, O., Iwanicki, J., Kester, O., Köster, U., A. Marsh, B., Niedermaier, O., Nilsson, T., Reiter, P., Scheit, H., Schwalm, D., Sieber, T., Sletten, G., Stefanescu, I., van de Walle, J., van Duppen, P., Warr, N., Weisshaar, D., Wenander, F.
Format: Artikel
Sprache:eng
Schlagworte:
CERN
COULOMB EXCITATION
NEUTRON-DEFICIENT ISOTOPES
Nuclear Experiment
NUCLEAR PHYSICS AND RADIATION PHYSICS
Physics
PROBABILITY
SHELL MODELS
TIN 100
TIN 108
TIN 110
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Zusammenfassung:The first excited 2+ state of the unstable isotope 110Sn has been studied in safe Coulomb excitation at 2.82 MeV/u using the MINIBALL array at the REX-ISOLDE post accelerator at CERN. This is the first measurement of the reduced transition probability of this state using this method for a neutron deficient Sn isotope. The strength of the approach lies in the excellent peak-to-background ratio that is achieved. The extracted reduced transition probability, B(E2:0+-->2+)=0.220±0.022e2b2, strengthens the observation of the evolution of the B(E2) values of neutron deficient Sn isotopes that was observed recently in intermediate-energy Coulomb excitation of 108Sn. It implies that the trend of these reduced transition probabilities in the even-even Sn isotopes is not symmetric with respect to the midshell mass number A=116 as 100Sn is approached.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.98.172501