Evolution of single-particle structure near the N=20 island of inversion

P. T. Macgregor; D. K. Sharp; S. J. Freeman; C. R. Hoffman; B. P. Kay; T. L. Tang; L. P. Gaffney; E. F. Baader; M. J.G. Borge; P. A. Butler; W. N. Catford; B. D. Cropper; G. De Angelis; J. Konki; Th Kröll; M. Labiche; I. H. Lazarus; R. S. Lubna; I. Martel; D. G. McNeel; R. D. Page; O. Poleshchuk; R. Raabe; F. Recchia; J. Yang

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Evolution of single-particle structure near the N=20 island of inversion

Physical Review C (2021) 104(5)

DOI: 10.1103/PhysRevC.104.L051301

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Abstract

The single-particle properties of Mg29 have been investigated via a measurement of the Mg28(d,p)Mg29 reaction, in inverse kinematics, using the ISOLDE Solenoidal Spectrometer. The negative-parity intruder states from the fp shell have been identified and used to benchmark modern shell-model calculations. The systematic data on the single-particle centroids along the N=17 isotones show good agreement with shell-model predictions in describing the observed trends from stability toward O25. However, there is also evidence that the effect of the finite geometry of the nuclear potential is playing a role on the behavior of the p orbitals near the particle-emission threshold.

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Macgregor, P. T., Sharp, D. K., Freeman, S. J., Hoffman, C. R., Kay, B. P., Tang, T. L., … Yang, J. (2021). Evolution of single-particle structure near the N=20 island of inversion. Physical Review C, 104(5). https://doi.org/10.1103/PhysRevC.104.L051301

Evolution of single-particle structure near the N=20 island of inversion

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