Abstract
Linear polarization and Doppler shift recoil-distance decay curves for γ-ray transitions deexciting very high spin yrast states up to spin 36ħ in 152Dy were measured with a delayed-promt γ-γ coincidence technique via the reactions 122Sn ( 34S, 4n) and 124Sn( 32S, 4n), at 150 MeV incident beam energy. The deduced experimental transition probabilities are consistent with those obtained for non-rotational nuclei indicating that the yrast angular momentum originates mainly from the alignment of individual particle spins.
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