Abstract
Yrast levels in the doubly-magic nucleus56Ni have been studied by in-beam gg-spectroscopy with the reaction54Fe(α, 2n)56Ni. A cascade of five γ -transitions is established. A shell model calculation of 2p2h, T=0 states, using empirical matrix elements, suggests the assignments 8+ and 10+ for the two highest levels.
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References
H. Nann and W. Benenson, Phys. Rev.C 10, 1880 (1974).
W. Bohne, H. Fuchs, K. Grabisch, D. Hilscher, U. Jahnke, H. Kluge, T.G. Masterson and H. Morgenstern, Nucl. Phys.A245, 107 (1975).
H. Homeyer, F.D. Becchetti, B.G. Harvey, D.L. Hendrie, D.G. Kover, J. Mahoney and W. von Oertzen, Lawrence Berkeley Laboratory, Nuclear Chemistry Annual Report 1974, LBL-4000, p. 67.
P. Schneider, K.H. Bodenmiller and S. Buhl, Z. Phys.A272, 113 (1975).
D.G. Sarantites, J. Urbon and L.L. Rutledge, Jr., Phys. Rev.C14, 1412 (1976).
R.L. McGrath, D.F. Geesaman, L.L. Lee, Jr., J.W. Nóe and C.E. Thorn, Phys. Rev.C23, 1060 (1981).
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Blomqvist, J., Hjorth, S.A., Johnson, A. et al. In-beam γ-ray spectroscopy on56Ni. Z Physik A 322, 169–170 (1985). https://doi.org/10.1007/BF01412031
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DOI: https://doi.org/10.1007/BF01412031