Coulomb excitation of the N=50 nucleus Zn-80

J. V. de Walle,F. Aksouh,F. Ames,T. Behrens,V. Bildstein,A. Blazhev,J. Cederkall,E. Clément,T. E. Cocolios,T. Davinson,P. Delahaye,J. Eberth,A. Ekström,D. V. Fedorov,V. N. Fedosseev,L. M. Fraile,S. Franchoo,R. Gernhäuser,G. Georgiev,D. Habs,K. Heyde,G. Huber,M. Huýse,F. Ibrahim,O. Ivanov,J. Iwanicki,J. Jolie,O. Kester,U. Köster,T. Kröll,R. Krücken,M. Lauer,A. F. Lisetskiy,R. Lutter,B. A. Marsh,P. Mayet,O. Niedermaier,T. Nilsson,M. Pantea,O. Perru,R. Raabe,P. Reiter,M. Sawicka,H. Scheit,G. Schrieder,D. Schwalm,M. D. Seliverstov,T. Sieber,G. Sletten,N. Smirnova,M. Stanoiu,I. Stefanescu,J. C. Thomas,J. J. Valiente Dobon,P. Van Duppen,D. Verney,D. Voulot,N. Warr,D. Weisshaar,F. Wenander,B. H. Wolf,M. Zielinska

Coulomb excitation of the N=50 nucleus Zn-80

2008

Neutron rich Zinc isotopes, including the N=50 nucleus Zn-80, were produced and post-accelerated at the Radioactive Ion Beam (RIB) facility REX-ISOLDE (CERN). Low-energy Coulomb excitation was induced on these isotopes after post-acceleration, yielding B(E2) strengths to the first excited 2(+) states. For the first time, an excited state in Zn-80 was observed and the 2(1)(+) state in Zn-78 was established. The measured B(E2,2(1)(+) -> 0(1)(+)) values are compared to two sets of large scale shell model calculations. Both calculations reproduce the observed B(E2) systematics for the full Zinc isotopic chain. The results for N=50 isotones indicate a good N=50 shell closure and a strong Z=28 proton core polarization. The new results serve as benchmarks to establish theoretical models, predicting the nuclear properties of the doubly magic nucleus Ni-78.

Keywords:

Atomic physics
Nuclear structure
Zinc
Neutron
Proton
Excited state
Coulomb excitation
Isotope
Nuclear magnetic resonance
Isotopes of zinc
Chemistry

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