Remnants of spherical shell structures in deformed nuclei: The impact of an N=64 neutron subshell closure on the structure of N≈90 gadolinium nuclei

T. J. Ross; R. O. Hughes; C. W. Beausang; J. M. Allmond; C. T. Angell; M. S. Basunia; D. L. Bleuel; J. T. Burke; R. J. Casperson; J. E. Escher; P. Fallon; R. Hatarik; J. Munson; S. Paschalis; M. Petri; L. W. Phair; J. J. Ressler; N. D. Scielzo

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Remnants of spherical shell structures in deformed nuclei: The impact of an N=64 neutron subshell closure on the structure of N≈90 gadolinium nuclei

Physical Review C - Nuclear Physics (2013) 88(3)

DOI: 10.1103/PhysRevC.88.031301

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Abstract

Odd-mass gadolinium isotopes around N=90 were populated by the (p,d) reaction, utilizing 25-MeV protons, resulting in population of low-spin quasineutron states at energies near and below the Fermi surface. Systematics of the single quasineutron levels populated are presented. A large excitation energy gap is observed between levels originating from the 2d3/2, 1h11/2, and 3s1/2 spherical parents (above the N=64 gap), and the 2d5/2 (below the gap), indicating that the spherical shell model level spacing is maintained at least to moderate deformations. © 2013 American Physical Society.

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Ross, T. J., Hughes, R. O., Beausang, C. W., Allmond, J. M., Angell, C. T., Basunia, M. S., … Scielzo, N. D. (2013). Remnants of spherical shell structures in deformed nuclei: The impact of an N=64 neutron subshell closure on the structure of N≈90 gadolinium nuclei. Physical Review C - Nuclear Physics, 88(3). https://doi.org/10.1103/PhysRevC.88.031301

Remnants of spherical shell structures in deformed nuclei: The impact of an N=64 neutron subshell closure on the structure of N≈90 gadolinium nuclei

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