Phenomenological Analysis of Characteristics of Rotational Bands in $$^{{158,160}}$$Gd Isotopes
P. N. UsmanovNamangan Engineering and Technological Institute, 160130, Namangan, Republic of UzbekistanA.I. VdovinBogoliubov Laboratory of Theoretical Physics, Joint Institute for Nuclear Research, 141980, Dubna, Moscow oblast, RussiaE. K. YusupovNamangan Engineering and Technological Institute, 160130, Namangan, Republic of UzbekistanУ. С. СалихбаевIAEA, 1400, Vienna, Austria
ABI
Abstract
Nonadiabatic effects manifested in the energies of states and the probabilities of electromagnetic transitions in $$^{{158,160}}$$Gd nuclei are studied in the context of a phenomenological model that takes into account Coriolis mixing of low-lying rotational bands. The energies of states of the lowest bands built at the internal $${{2}^{ + }}$$, $${{0}^{ + }}$$, and $${{1}^{ + }}$$ levels and the probabilities of $$E2$$-transitions between them are calculated. The mixing effect noticeably affects the wave functions of the band-heads. The calculated energies and probabilities of $$E2$$-transitions are in general satisfactory agreement with experimental data.
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