Open AccessResidual interactions and theK-mixing-induced fast decay of the three-quasiparticle isomer in171
Author(s) -
Fangqi Chen,
Yanxin Liu,
Yang Sun,
P. M. Walker,
G.D. Dracoulis
Publication year - 2012
Publication title -
physical review c
Language(s) - English
Resource type - Journals
eISSN - 1089-490X
pISSN - 0556-2813
DOI - 10.1103/physrevc.85.024324
Subject(s) - quasiparticle , mixing (physics) , physics , atomic orbital , hamiltonian (control theory) , matrix element , degeneracy (biology) , excited state , atomic physics , condensed matter physics , quantum mechanics , particle physics , superconductivity , mathematics , mathematical optimization , bioinformatics , biology , electron
The anomalously fast decay of a 19/2+ three-quasiparticle isomer in 171Tm was interpreted recently as an example of K mixing induced by a very small mixing matrix element but a (random) close proximity to a collective state. To understand the source of the residual interaction we have generalized the projected shell model by introducing two-body octupole and hexadecupole forces into the Hamiltonian and expanding the model space with inclusion of specific three-quasiparticle configurations. It is found that the K mixing is built up from small interactions transferred through numerous highly excited configurations that contain high-j orbitals. While the chance near-degeneracy enhances the transition strength, the octupole correlation and Coriolis coupling produce the mixing matrix element
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