Dominant g(9/2)2 neutron configuration in the 4+1 state of 68Zn based on new g factor measurements

Abstract

The g factor of the 41+ state in 68Zn has been remeasured with improved energy resolution of the detectors used. The value obtained is consistent with the previous result of a negative g factor thus confirming the dominant 0g9/2 neutron nature of the 41+ state. In addition, the accuracy of the g factors of the 21+, 22+ and 31- states has been improved an d their lifetimes were well reproduced. New large-scale shell model calculations based on a 56Ni core and an 0f5/21pg9/2 model space yield a theoretical value, g(41+) = +0.008. Although the calculated value is small, it cannot fully explain the experimental value, g(41+) = -0.37(17). The magnitude of the deduced B(E2) of the 41+ and 21+ transition is, however, rather well described. These results demonstrate again the importance of g factor measurements for nuclear structure determination s due to their specific sensitivity to detailed proton and neutron components in the nuclear wave functions.

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