EPJ Web of Conferences (Jan 2016)

Towards Superheavies: Spectroscopy of 94 < Z < 98, 150 < N < 154 Nuclei

  • Chowdhury P.,
  • Hota S. S.,
  • Qiu Y,
  • Ahmad I.,
  • Carpenter M. P.,
  • Greene J. P.,
  • Janssens R. V. F.,
  • Khoo T. L.,
  • Kondev F. G.,
  • Lauritsen T.,
  • Lister C. J.,
  • Seweryniak D.,
  • Zhu S.

DOI
https://doi.org/10.1051/epjconf/201612302003
Journal volume & issue
Vol. 123
p. 02003

Abstract

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The heaviest nuclei where excitations above the ground state can be studied lie near Z ~ 100. These nuclear structure studies are important testing grounds for theoretical models that aim to describe superheavy nuclei. To study the highest neutron orbitals (150 ≤ N ≤ 154), we have populated high angular momentum states in a series of Pu (Z = 94), Cm (Z = 96) and Cf (Z = 98) nuclei, via inelastic and transfer reactions, with heavy beams on long-lived radioactive actinide targets. Multiple collective excitation modes and structures were identified, and their configurations deduced. Quasiparticle alignments are mapped, with odd-A band structures helping identify specific orbital contributions via blocking arguments. Higher-order multipole shapes are observed to play a significant role in disentangling competing neutron and proton alignments. The N > 152 data provide new perspectives on physics beyond the N = 152 sub-shell gap.