Range-extended EXAFS at the L edge of rare earths using high-energy-resolution fluorescence detection: A study of La in LaOCl
Publication date
2005-07
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Abstract
We present extended x-ray absorption fine structure (EXAFS) data at the La L-2 edge in LaOCl that were recorded on the L beta(1) fluorescence line with an analyzer energy bandwidth of 1.3 eV. We show that by taking advantage of the high-energy-resolution fluorescence detection (HERFD) it is possible to extend the energy range for L-2 EXAFS analysis beyond the L-1 edge if the sample is optically thin. The arguments presented here generally apply to fluorescence-detected absorption spectroscopy if the fluorescence lines are sufficiently separated in energy. Calculations using an atomic multiplet model show that intensity due to 2p4d multiple-electron excitations is reduced in HERFD spectra. The technique has the potential of considerably improving EXAFS analyses at low energies (<10 keV) when absorption edges lie within a few hundred electron volts.
Keywords
ABSORPTION FINE-STRUCTURE, SPECTROSCOPY, CATALYSTS, SPECTRA, SYSTEMS
Citation
Glatzel, P, de Groot, FMF, Manoilova, O, Grandjean, D, Weckhuysen, BM, Bergmann, U & Barrea, R 2005, 'Range-extended EXAFS at the L edge of rare earths using high-energy-resolution fluorescence detection : A study of La in LaOCl', Physical Review B - Condensed Matter and Materials Physics, vol. 72, no. 1, 014117. https://doi.org/10.1103/PhysRevB.72.014117