Hyperfine fields at 66Ga, 67,69Ge implanted into iron and gadolinium hosts at 6 K, and applications to g-factor measurements

Abstract

Isomers in 66Ga, 67Ge, and 69Ge were recoil-implanted into ferromagnetic hosts of iron and gadolinium at ≈ 6~K, and the hyperfine magnetic fields were determined by Time Differential Perturbed Angular Distribution (TDPAD) measurements. The hyperfine field strengths at ≈ 6~K are compared to the results of previous higher-temperature measurements and the amplitudes of the R(t) functions are compared to empirical expectations. The results show that gadolinium can be a suitable host for high-precision in-beam g-factor measurements. The results of new g-factor measurements for isomers in 66Ga and 67Ge are g(66Ga,7-) = +0.126(4), supporting a [πf5/2 g9/2]7- configuration assignment, and g(67Ge,92+)=-0.1932(22), derived from a new measurement of the ratio g(67Ge)/g(69Ge) = 0.869(9). These values are in agreement with previous results. The R(t) amplitudes indicate that the nuclear alignment produced in the isomeric states was significantly lower than the empirically expected σ/I ≈ 0.35.