Collective oblate dipole rotational bands in 198Pb

Clark, R.M. and Wadsworth, R. and Paul, E.S. and Beausang, C.W. and Ali, I. and Astier, A. and Cullen, D.M. and Dagnall, P.J. and Fallon, P. and Joyce, M.J. and Meyer, M. and Redon, N. and Regan, P.H. and Sharpey-Schafer, J.F. and Nazarewicz, W. and Wyss, R. (1993) Collective oblate dipole rotational bands in 198Pb. Nuclear Physics, Section A, 562 (1). pp. 121-156.

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The nucleus 198Pb was populated via the 186W(17O, 5n)198Pb reaction at beam energies of 92 and 98 MeV. Five collective rotational cascades of ΔI = 1 transitions have been found. Four are highly regular, one much more irregular. The structures are incorporated into a level scheme which extends up to approximately spin 32ħ and an excitation energy of about 10 MeV. Angular correlation measurements confirm the dipole character of the interband transitions. Their M1 multipolarity is inferred, and from this supposition the experimental data are interpreted in terms of oblate high-K two quasiproton configurations coupled to aligned neutron excitations. This interpretation is extended to include other ΔI= 1 oblate structures observed in 194–201Pb. It is shown that the pattern of observed moments of inertia can be understood in the simple unpaired picture involving neutron excitations. The identical bands observed are interpreted in terms of the normal-parity weakly-coupled singlet orbital.

Item Type:
Journal Article
Journal or Publication Title:
Nuclear Physics, Section A
?? nuclear reactions ??
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Deposited On:
01 Apr 2019 07:40
Last Modified:
15 Jul 2024 19:11