6533b7d7fe1ef96bd1268c9e

RESEARCH PRODUCT

Isomer Spectroscopy in90216Th126and the Magicity of92218U126

F. BeckerF. AzaiezO. DorvauxJuha UusitaloW. KortenK. HauschildK.-h. SchmidtK. HelariuttaR. JulinE. CaurierHeikki KettunenP. RahkilaS. JuutinenPaivi NieminenH. GraweM. GórskaM. MuikkuJ. DöringF. NowackiPeter M. JonesMatti LeinoM. RejmundM. BelleguicY. Le Coz

subject

PhysicsCrystallographyNuclear magnetic resonancePairingExcited stateDegenerate energy levelsSHELL modelPiGeneral Physics and AstronomySpectroscopy

description

Excited states in (216)Th were investigated via prompt and delayed gamma decays and the recoil-decay tagging method. The decay schemes of the I(pi) = (8+), t(1/2) = 128(8) micros, the I(pi) = (11-), t(1/2) = 615(55) ns, and the I(pi) = (14+), t(1/2) > or = 130 ns isomers were established. The configuration pi h(9/2)f(7/2) is assigned to the I(pi) = (8+) isomer, which implies that the h(9/2) and f(7/2) states are nearly degenerate. This is ascribed to increased binding of the f(7/2) orbital by its coupling to a low-lying I(pi) = (3-) state at E(x) = 1687 keV. The role of octupole and pairing correlations for a Z = 92 shell closure prediction is discussed on the basis of shell model calculations.

yearjournalcountryeditionlanguage
2001-07-25Physical Review Letters
https://doi.org/10.1103/physrevlett.87.072501