Physics Letters B (Jul 2018)

Nuclear moments of the low-lying isomeric 1+ state of 34Al: Investigation on the neutron 1p1h excitation across N = 20 in the island of inversion

  • Z.Y. Xu,
  • H. Heylen,
  • K. Asahi,
  • F. Boulay,
  • J.M. Daugas,
  • R.P. de Groote,
  • W. Gins,
  • O. Kamalou,
  • Á. Koszorús,
  • M. Lykiardopoulou,
  • T.J. Mertzimekis,
  • G. Neyens,
  • H. Nishibata,
  • T. Otsuka,
  • R. Orset,
  • A. Poves,
  • T. Sato,
  • C. Stodel,
  • J.C. Thomas,
  • N. Tsunoda,
  • Y. Utsuno,
  • M. Vandebrouck,
  • X.F. Yang

Journal volume & issue
Vol. 782
pp. 619 – 626

Abstract

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The nuclear g factor and quadrupole moment (Qs) have been measured for the low-lying isomeric 1+ state of 34Al, using the β-detected nuclear magnetic resonance (β-NMR) and quadrupole resonance (β-NQR) methods. Spin-polarized 34Al isotopes were produced in a one-neutron pickup reaction induced by a 36S beam on a 9Be target at a kinetic energy of 77.5 MeV/nucleon, and were collected with the LISE fragment separator at GANIL. The measured g factor (|g| in a range of 1.757±0.014) and quadrupole moment (|Qs|=38(5) mb) are in good agreement with shell-model calculations using effective interactions. The similarity between the g factor of 34mAl and that of 32Al confirms a dominant neutron 2p1h configuration π(d5/2)−1⊗ν(d3/2)−1(f7/2)2 of 34mAl. In addition, the enhanced quadrupole moment of 34mAl relative to that of 32Al suggests that the neutron 1p1h excitation across the N=20 shell gap introduces extra nucleon–nucleon correlation and deformation. Keywords: β-NMR/NQR, g factor, Quadrupole moment, 34mAl