Shape polarization in the tin isotopes near N=60 from precision g-factor measurements on short-lived 11/2- isomers

Abstract

The g factors of 11/2- isomers in semimagic 109Sn and 111Sn (isomeric lifetimes τ = 2.9(3) ns and τ = 14.4(7) ns, respectively) were measured by an extension of the Time Differential Perturbed Angular Distribution technique, which uses detectors and the hyperfine fields of a gadolinium host to achieve precise measurements in a new regime of short-lived isomers. The results, g(11/2-; 109Sn) = -0.186(8) and g(11/2-; 111Sn) = -0.214(4), are significantly lower in magnitude than those of the 11/2- isomers in the heavier isotopes and depart from the value expected for a near pure neutron h11/2 configuration. Broken-symmetry density functional theory calculations applied to the sequence of 11/2- states reproduce the magnitude and location of this deviation. The g(11/2-) values are affected by shape core polarization; the odd 0h11/2 neutron couples to Jπ=2+,4+,6+... configurations in the weakly-deformed effective core, causing a decrease in the g-factor magnitudes.

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