Physics Letters B (Jul 2017)

Identification of the one-quadrupole phonon 21,ms+ state of 204Hg

  • R. Stegmann,
  • C. Stahl,
  • G. Rainovski,
  • N. Pietralla,
  • C. Stoyanov,
  • M.P. Carpenter,
  • R.V.F. Janssens,
  • M. Lettmann,
  • T. Möller,
  • O. Möller,
  • V. Werner,
  • S. Zhu

DOI
https://doi.org/10.1016/j.physletb.2017.04.032
Journal volume & issue
Vol. 770, no. C
pp. 77 – 82

Abstract

Read online

One-phonon states of vibrational nuclei with mixed proton–neutron symmetry have been observed throughout the nuclear chart besides the mass A≈200 region. Very recently, it has been proposed that the 22+ state of 212Po is of isovector nature. This nucleus has two valence protons and two valence neutrons outside the doubly-magic 208Pb nucleus. The stable isotope 204Hg, featuring two valence-proton and valence-neutron holes, with respect to 208Pb, is the particle-hole mirror of 212Po. In order to compare the properties of low-lying isovector excitations in these particle-hole mirror nuclei, we have studied 204Hg by using the projectile Coulomb-excitation technique. The measured absolute B(M1;22+→21+) strength of 0.20(2)μN2 indicates that the 22+ level of 204Hg is at least the main fragment of the 21,ms+ state. For the first time in this mass region, both lowest-lying, one-quadrupole phonon excitations are established together with the complete set of their decay strengths. This allows for a microscopic description of their structures, achieved in the framework of the Quasi-particle Phonon Model.

Keywords