Coulomb Excitation of Neutron-Rich Zn Isotopes: First Observation of the21+State inZn80

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RESEARCH PRODUCT

Coulomb Excitation of Neutron-Rich Zn Isotopes: First Observation of the21+State inZn80

J. J. Valiente-dobón J. Eberth Marc Huyse Joakim Cederkäll D. Voulot V. Bildstein M. Pantea V. N. Fedosseev F. Ibrahim T. Behrens A. F. Lisetskiy Thomas Davinson B. A. Marsh Dirk Schwalm A. Blazhev P. Reiter D. V. Fedorov Thomas Nilsson N. Warr Kristiaan Heyde Oliver Kester O. Ivanov P. Delahaye F. Ames O. Niedermaier Andreas Ekström I. Stefanescu R. Lutter P. Van Duppen Georgi P. Georgiev Georgi P. Georgiev Dirk Weisshaar R. Krücken Fredrik Wenander J. C. Thomas F. Aksouh M. Lauer Emyr Clement N. Smirnova N. Smirnova G. Huber Dietrich Habs L. M. Fraile Riccardo Raabe Thomas Elias Cocolios Heiko Scheit G. Sletten M. Sawicka S. Franchoo Ulli Köster G. Schrieder P. Mayet M. D. Seliverstov M. D. Seliverstov D. Verney Th. Kröll B. Wolf M. Zielinska O. Perru T. Sieber M. Stanoiu J. Jolie Roman Gernhäuser J. Iwanicki J. Van De Walle

subject

Physics Large Hadron Collider Proton Ion beam Isotope 010308 nuclear & particles physics Isotone Nuclear Theory General Physics and Astronomy chemistry.chemical_element Coulomb excitation Zinc 01 natural sciences chemistry 0103 physical sciences Physics::Accelerator Physics Neutron Atomic physics Nuclear Experiment 010306 general physics

description

Neutron-rich, radioactive Zn isotopes were investigated at the Radioactive Ion Beam facility REX-ISOLDE (CERN) using low-energy Coulomb excitation. The energy of the 2(1)+ state in 78Zn could be firmly established and for the first time the 2+ --> 0(1)+ transition in 80Zn was observed at 1492(1) keV. B(E2,2(1)+ --> 0(1)+) values were extracted for (74,76,78,80)Zn and compared to large scale shell model calculations. With only two protons outside the Z=28 proton core, 80Zn is the lightest N=50 isotone for which spectroscopic information has been obtained to date. Two sets of advanced shell model calculations reproduce the observed B(E2) systematics. 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 78Ni.

year	journal	country	edition	language
2007-10-02	Physical Review Letters

https://doi.org/10.1103/physrevlett.99.142501