Microscopic investigation of E2 matrix elements in atomic nuclei

Abstract

A systematic analysis of E2 matrix elements of 72Ge, 76Ge, 168Er, 186Os, 188Os, 190Os, 192Os and 194Pt nuclides is performed using the beyond mean-field approach of triaxial projected shell model (TPSM). For these nuclei, large sets of E2 matrix elements have been deduced from the multi-step Coulomb excitation experiments, and it is shown that TPSM approach provides a reasonable description of the measured transitions. We have evaluated 1496 E2 matrix elements up to spin, I=10 for the eight nuclei studied, and tabulate them for future experimental and theoretical comparisons. Further, shape invariant analysis has been performed with the calculated E2 transitions using the Kumar-Cline sum rules. It is inferred from the analysis that the resulting shape, after configuration mixing of the quasiparticle states, transforms from γ-rigid to that of γ-soft for some nuclei, in conformity with the experimental data.

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