Deconvolution–convolution treatment on powder diffraction data collected with CuKα X-ray and NiKβ filter

Deconvolution–convolution treatment on powder diffraction data collected with CuKα X-ray and NiKβ filter

A method to remove small CuKβ peaks and step structures caused by NiK-edge absorption as well as CuKα2 sub-peaks from powder diffraction intensity data measured with Cu-target X-ray source and Ni-foil filter is proposed. The method is based on deconvolution–convolution treatment applying scale trans...

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Veröffentlicht in:Powder diffraction 2018-06, Vol.33 (2), p.80-87
Hauptverfasser: Ida, Takashi, Ono, Shoki, Hattan, Daiki, Yoshida, Takehiro, Takatsu, Yoshinobu, Nomura, Katsuhiro
Format: Artikel
Sprache:eng
Schlagworte:
Convolution
Copper
Deconvolution
Diffraction
Foils
Fourier transforms
Laboratories
Nickel
Sensors
Technical Article
X ray sources
X-ray diffraction
X-rays
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Zusammenfassung:A method to remove small CuKβ peaks and step structures caused by NiK-edge absorption as well as CuKα2 sub-peaks from powder diffraction intensity data measured with Cu-target X-ray source and Ni-foil filter is proposed. The method is based on deconvolution–convolution treatment applying scale transform of abscissa, Fourier transform, and a realistic spectroscopic model for the source X-ray. The validity of the method has been tested by analysis of the powder diffraction data of a standard LaB6 powder (NIST SRM660a) sample, collected with the combination of CuKα X-ray source, Ni-foil Kβ filter, flat powder specimen and one-dimensional Si strip detector. The diffraction intensity data treated with the method have certainly shown background intensity profile without CuKβ peaks and NiK-edge step structures.
ISSN:0885-7156
1945-7413
DOI:10.1017/S0885715618000258