Abstract
Nuclear alignment attenuation coefficients of excited levels in 67Ga have been measured via the reactions 64 Zn + α and 57 Fe + 12 C for incident energies between 9 and 22 MeV and 32 and 48 MeV, respectively. The data were deduced from angular distributions of four pure electric quadrupole transitions in 67Ga. For the heavy-ion induced reaction a slight decrease of alignment with incident energy has been observed while there is a strong energy dependence of nuclear alignment for the α-induced reaction due to the feeding mechanism. The attenuation coefficients are consistent with the Gaussian magnetic substate population hypothesis except where direct and cascade feeding compete with comparable intersities.
Published Version
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