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HK: Fachverband Physik der Hadronen und Kerne
HK 57: Struktur und Dynamik von Kernen IX
HK 57.4: Vortrag
Donnerstag, 24. März 2011, 17:15–17:30, O-1
First g-factor measurement on radioactive 88Zr(21+) near the N=50 shell closure* — •K.-H. Speidel1, G.J. Kumbartzki2, N. Benczer-Koller2, D.A. Torres2, G. Gürdal2, Y.Y Sharon2, T. Ahn3, V. Anagnostatou3, Ch. Bernards3, M. Elvers3, P. Goddard3, G. Ilie3, D. Radeck3, D. Savran3, V. Werner3, J. Ashenfelder3, F. Lopez3, C. Miller3, and P. Maier-Komor4 — 1Helmholtz-Institut für Strahlen- und Kernphysik, Uni Bonn — 2Rutgers University, New Brunswick NJ — 3Yale University, New Haven CT — 4Physik-Department, TU München
The Zr nuclei at and near shell closures in protons (Z=40) and neutrons (N=50) play a very important role for nuclear structure studies. For the radioactive 88Zr the two neutron holes in the g9/2 orbital should show a distinct fingerprint in the nuclear wave function of the 21+ state which can be observed by its g-factor. The α-transfer from a carbon target to 84Sr projectiles of 278 MeV has been used to populate the 21+ state in 88Zr via the reaction 12C(84Sr, 8Be)88Zr. The 84Sr beam was provided by the Yale tandem accelerator using highly enriched 84Sr in the form of SrH3 ions emerging from the ion source. The two α-particles from the breakup of 8Be and the recoiling carbon ions from projectile Coulomb excitation were detected in a Si detector at 0∘ in coincidence with γ-rays recorded in four Ge Clover detectors. Spin precessions have been measured simultaneously for 88Zr and 84Sr nuclei employing the transient field technique. The g-factors obtained for the 21+ states are discussed in the context of similar data for neighbouring isotopes around the N=50 shell closure. *supported by the DFG