Evidence for the microscopic formation of mixed-symmetry states from magnetic moment measurements

Abstract

Using the transient field technique, the magnetic moments of the second excited 2+ states in Zr92,94 have been measured for the first time. The large positive g factors, g(22+;92Zr)=+0.76(50) and g(22+;94Zr)=+0.88(27), which are in contrast to the known negative g factors of the 21+ states, are found to be a consequence of weak proton-neutron coupling combined with the Z=40 subshell closure. From their large M1 transition strengths to the 21+ states, in earlier works an assignment to the 22+ states as proton-neutron symmetric and mixed-symmetry states has been made, which are now found to be polarized in their proton-neutron content. This fact allows to identify the underlying microscopic main configurations in the wave functions, which form the building blocks of symmetric and mixed-symmetry states in this region as valence nucleons are added and shell structure changes. � 2008 The American Physical Society. Show more