Isomers in 203Tl and core excitations built on a five-nucleon-hole structure

Abstract

Isomers with three- and five-nucleon-hole configurations have been established in 203Tl. These include newly identified levels with a three-nucleon structure: Iπ = (15/2-) with T1/2 = 7.9(5) ns, and Iπ = (35/2-) with T1/2 = 4.0(5) ns. In addition, five-quasiparticle states: Iπ = (39/2-) with T1/2 = 1.9(2) ns, and Iπ = (49/2+) with T1/2 = 3.4(4) ns have also been established. The previously determined long-lived decay [ T1/2 = 6.6(3) μ s from this work] is associated with isomerism of the Iπ = (29/2+) state. Levels above this long-lived isomer have been identified through a delayed-prompt coincidence measurement. Five-nucleon-hole states with excitation energies Ex ≈ 7 MeV have been established as well as possible octupole excitations of the 208Pb core built on these levels. The level scheme of 203Tl is extended up to Ex ≈ 11 MeV with the inclusion of 25 new transitions. Empirical and shell-model calculations have been performed to aid in the description of the observed states which are found to be predominantly of intrinsic character.

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