The collective structure of Cd-106 is elucidated by multi-step Coulomb excitation of a 3.849 MeV/A beam of Cd-106 on a 1.1 mg/cm(2) Pb-208 target using GRETINA-CHICO2 at ATLAS. Fourteen E2 matrix elements were obtained. The nucleus Cd-108 is a prime example of emergent collectivity that possesses a simple structure: it is free of complexity caused by shape coexistence and has a small, but collectively active number of valence nucleons. This work follows in a long and currently active quest to answer the fundamental question of the origin of nuclear collectivity and deformation, notably in the cadmium isotopes. The results are discussed in terms of phenomenological models, the shell model, and Kumar-Cline sums of E2 matrix elements. The < 0(2)(+parallel to)E2 parallel to 2(1)(+)) matrix element is determined for the first time, providing a total, converged measure of the electric quadrupole strength, < Q(2)>, of the first-excited 2(1)(1) level relative to the 0(1)(+) ground state, which does not show an increase as expected of harmonic and anharmonic vibrations. Strong evidence for triaxial shapes in weakly collective nuclei is indicated; collective vibrations are excluded. This is contrary to the only other cadmium result of this kind in Cd-114 by C. Fahlander et al. (1988) [38], which is complicated by low-lying shape coexistence near midshell.
E2 rotational invariants of 0₁⁺ and 2₁⁺ states for ¹⁰⁶Cd: The emergence of collective rotation [E2 rotational invariants of 0(1)(+) and 2(1)(+) states for Cd-106: The emergence of collective rotation] / T. Gray, J. Allmond, R. Janssens, W. Korten, A. Stuchbery, J. Wood, A. Ayangeakaa, S. Bottoni, B. Bucher, C. Campbell, M. Carpenter, H. Crawford, H. David, D. Doherty, P. Fallon, M. Febbraro, A. Galindo-Uribarri, C. Gross, M. Komorowska, F. Kondev, T. Lauritsen, A. Macchiavelli, R. Napiorkowsi, E. Padilla-Rodal, S. Pain, W. Reviol, D. Sarantites, G. Savard, D. Seweryniak, C. Wu, C. Yu, S. Zhu. - In: PHYSICS LETTERS. SECTION B. - ISSN 0370-2693. - 834:(2022 Nov 10), pp. 137446.1-137446.6. [10.1016/j.physletb.2022.137446]
E2 rotational invariants of 0₁⁺ and 2₁⁺ states for ¹⁰⁶Cd: The emergence of collective rotation [E2 rotational invariants of 0(1)(+) and 2(1)(+) states for Cd-106: The emergence of collective rotation]
S. Bottoni;
2022
Abstract
The collective structure of Cd-106 is elucidated by multi-step Coulomb excitation of a 3.849 MeV/A beam of Cd-106 on a 1.1 mg/cm(2) Pb-208 target using GRETINA-CHICO2 at ATLAS. Fourteen E2 matrix elements were obtained. The nucleus Cd-108 is a prime example of emergent collectivity that possesses a simple structure: it is free of complexity caused by shape coexistence and has a small, but collectively active number of valence nucleons. This work follows in a long and currently active quest to answer the fundamental question of the origin of nuclear collectivity and deformation, notably in the cadmium isotopes. The results are discussed in terms of phenomenological models, the shell model, and Kumar-Cline sums of E2 matrix elements. The < 0(2)(+parallel to)E2 parallel to 2(1)(+)) matrix element is determined for the first time, providing a total, converged measure of the electric quadrupole strength, < Q(2)>, of the first-excited 2(1)(1) level relative to the 0(1)(+) ground state, which does not show an increase as expected of harmonic and anharmonic vibrations. Strong evidence for triaxial shapes in weakly collective nuclei is indicated; collective vibrations are excluded. This is contrary to the only other cadmium result of this kind in Cd-114 by C. Fahlander et al. (1988) [38], which is complicated by low-lying shape coexistence near midshell.
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