Abstract
The systematics of present transient field data are briefly reviewed. The contribution to the field from bound polarized s-electrons and scattering of polarized electrons are discussed. The transient field is compared to measured K-vacancy fractions for light ions in solids, and a mechanism for polarizing the bound electrons of the ions is suggested. This mechanism predicts that the transient magnetic field might decrease for velocities higher than ∼ 10 ν0. Examples of the utilization of the strong transient magnetic field in nuclear g-factor experiments are presented by recent results from measurements of g-factors for high-spin rotational states in deformed nuclei.
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