A beam containing a substantial component of both the J(pi) = 5(+), T-1/2 = 162 ns isomeric state of F-18 and its 1(+), 109.77-min ground state is utilized to study members of the ground-state rotational band in F-19 through the neutron transfer reaction (d,p) in inverse kinematics. The resulting spectroscopic strengths confirm the single-particle nature of the 13/2(+) band-terminating state. The agreement between shell-model calculations using an interaction constructed within the sd shell, and our experimental results reinforces the idea of a single-particle-collective duality in the descriptions of the structure of atomic nuclei.
Probing the Single-Particle Character of Rotational States in F19 Using a Short-Lived Isomeric Beam / D. Santiago-Gonzalez, K. Auranen, M. . Avila, A. . Ayangeakaa, B. . Back, S. Bottoni, M. . Carpenter, J. Chen, C. . Deibel, A. . Hood, C. . Hoffman, R. . . Janssens, C. . Jiang, B. . Kay, S. . Kuvin, A. Lauer, J. . Schiffer, J. Sethi, R. Talwar, I. Wiedenhöver, J. Winkelbauer, S. Zhu. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 120:12(2018 Mar 23), pp. 122503.122503-1-122503.122503-5.
Probing the Single-Particle Character of Rotational States in F19 Using a Short-Lived Isomeric Beam
S. Bottoni;
2018
Abstract
A beam containing a substantial component of both the J(pi) = 5(+), T-1/2 = 162 ns isomeric state of F-18 and its 1(+), 109.77-min ground state is utilized to study members of the ground-state rotational band in F-19 through the neutron transfer reaction (d,p) in inverse kinematics. The resulting spectroscopic strengths confirm the single-particle nature of the 13/2(+) band-terminating state. The agreement between shell-model calculations using an interaction constructed within the sd shell, and our experimental results reinforces the idea of a single-particle-collective duality in the descriptions of the structure of atomic nuclei.File | Dimensione | Formato | |
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