Experimental determination of the x-ray atomic fundamental parameters of nickel
Résumé
The x-ray atomic properties of nickel (Ni) were investigated in a unique approach combining different experimental techniques to obtain new, useful and reliable values of atomic fundamental parameters for x-ray spectrometric purposes and for comparison with theoretical predictions. We determined the mass attenuation coefficients in an energy range covering the L-and K-absorption edges, the K-shell fluorescence yield and the $K\beta$ / $K\alpha$ and $K\beta_{1,3}$/$K\alpha_{1,2}$ transition probability ratios. The obtained line profiles and linewidths of the $K\alpha$ and $K\beta$ transitions in Ni can be considered as the contribution of the satellite lines arising from the [KM] shake processes suggested by Deutsch et al (1995 Phys. Rev. A 51 283) and Ito et al (2016 Phys. Rev. A 94 042506). Comparison of the new data with several databases showed good agreement, but also discrepancies were found with existing tabulated values.
Mots clés
Spectrometry
Attenuation
Scattering
Metrology
Copper
Intensity ratios
Emission spectra
Ssynchrotron-radiation
monochromator beamline
K-$\alpha$
line intensities
fluorescence yield
mass attenuation coefficients
ionizing radiation
radioactivity
Primary activity measurement
Decay data measurement
X-rays
alpha-rays
beta-rays
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