Abstract
Abstract The vacancy transfer probabilities from K-shell to L 2-, L 3- and L-shell/subshells were measured in Fe x Zn1-x thin film alloys. The samples were excited by γ photons with energy 59.5 keV from a 50 mCi 241Am radioisotope source. The emitted K X-rays were detected by an Ultra-LEGe having a resolution of 150 eV at 5.9 keV. For comparison with experimental results, theoretical calculations have been made using radiative and nonradiative transition rates. The measured results are in good agreement with theoretically calculated values within experimental errors. Fe x Zn1-x thin film alloys were electrochemically deposited on aluminum substrates from sulfate bath. In conclusion, it was found that the vacancy transfer probabilities changed in Fe x Zn1-x thin films for different compositions of x.
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