Physics Letters B (Sep 2021)

Enhanced quadrupole collectivity in doubly-magic 56Ni: Lifetime measurements of the 41+ and 61+ states

  • K. Arnswald,
  • A. Blazhev,
  • F. Nowacki,
  • P. Petkov,
  • P. Reiter,
  • T. Braunroth,
  • A. Dewald,
  • M. Droste,
  • C. Fransen,
  • R. Hirsch,
  • V. Karayonchev,
  • L. Kaya,
  • L. Lewandowski,
  • C. Müller-Gatermann,
  • M. Seidlitz,
  • B. Siebeck,
  • A. Vogt,
  • D. Werner,
  • K.O. Zell

Journal volume & issue
Vol. 820
p. 136592

Abstract

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Lifetime measurements of excited states in doubly-magic 56Ni have been performed exploiting the Doppler-shift attenuation method in order to determine reduced transition probabilities. For the 41+ and 61+ states, the deduced B(E2) values are compared with results from shell-model calculations employing the GXPF1A and the modern PFSDG-U interactions. In addition, valence ab-initio calculations were performed using a novel realistic Hamiltonian derived from chiral perturbation theory including three-body potential contributions and are confronted with the experimental findings. The new results show maximum E2 strength in comparison with known values along the N=28 chain of isotones. The results corroborate the high collectivity for the double shell closure at N=Z=28 which was anticipated from the large B(E2;21+→0g.s.+) value despite the considerable increase of its excitation energy as compared to neighboring semi-magic nuclei. Based on similarities in the shell structures of the self-conjugate doubly-magic nuclei 56Ni and 100Sn, the new values could be an indication for an expected comparable collective behavior of the 61+ state in 100Sn.

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