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Removal of small parasite peaks in powder diffraction data by a multiple deconvolution method

Published online by Cambridge University Press:  29 June 2018

Takashi Ida ,
Shoki Ono ,
Daiki Hattan ,
Takehiro Yoshida ,
Yoshinobu Takatsu  and
Katsuhiro Nomura
Takashi Ida*
Affiliation:
Advanced Ceramics Research Center, Nagoya Institute of Technology, Asahigaoka, Tajimi, Gifu 507-0071, Japan
Shoki Ono
Affiliation:
Advanced Ceramics Research Center, Nagoya Institute of Technology, Asahigaoka, Tajimi, Gifu 507-0071, Japan
Daiki Hattan
Affiliation:
Advanced Ceramics Research Center, Nagoya Institute of Technology, Asahigaoka, Tajimi, Gifu 507-0071, Japan
Takehiro Yoshida
Affiliation:
Advanced Ceramics Research Center, Nagoya Institute of Technology, Asahigaoka, Tajimi, Gifu 507-0071, Japan
Yoshinobu Takatsu
Affiliation:
Advanced Ceramics Research Center, Nagoya Institute of Technology, Asahigaoka, Tajimi, Gifu 507-0071, Japan
Katsuhiro Nomura
Affiliation:
Inorganic Functional Materials Research Institute, National Institute of Advanced Industrial Science and Technology, Anagahora, Shimoshidami, Moriyama, Nagoya, Aichi 463-8560, Japan
*
a)Author to whom correspondence should be addressed. Electronic mail: ida.takashi@nitech.ac.jp
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Abstract

Four series of small parasite peaks observed in powder diffraction data recorded with a Cu-target X-ray tube and a Ni filter on the diffracted beam side in Bragg–Brentano geometry are investigated. One series of the parasite peaks is assigned to the tungsten -emission. Other three types of the parasite peak series are likely to be caused by the K-emissions of Ni, but the peak locations are deviated from those predicted by the Bragg's law. An empirical formula to locate the parasite peaks and a method to remove them from observed powder diffraction data are proposed. The method is based on the whole-pattern deconvolution–convolution treatment on the transformed scale of abscissa. The parameters optimized for the diffraction data measured for Si powder has been applied on treatment of the data of LaB6 powder recorded under the same experimental conditions. It has been confirmed that the parasite peaks in the observed data can effectively be removed by the deconvolution treatment with parameters determined by a reference measurement.

Keywords

Ni filterBragg–Brentano geometrydeconvolutionconvolutionparasite peak
Type
Technical Article
Information
Powder Diffraction , Volume 33 , Issue 2 , June 2018 , pp. 108 - 114
Copyright
Copyright © International Centre for Diffraction Data 2018 

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References

Allison, S. K. and Armstrong, A. H. (1925). “Experiments on the relative intensities of some X-ray lines in the L spectrum of tungsten and the K spectrum of copper,” Phys. Rev. 26, 714723.CrossRefGoogle Scholar
Ida, T. and Toraya, H. (2002). “Deconvolution of the instrumental functions in powder X-ray diffractometery,” J. Appl. Crystallogr. 35, 5868.CrossRefGoogle Scholar
Ida, T., Ono, S., Hattan, D., Yoshida, T., Takatsu, Y., and Nomura, K. (2018a). “Deconvolution-convolution treatment on powder diffraction data collected with Cu Kα X-ray and Ni Kβ filter,” Powder Diffr. 33, 8087.CrossRefGoogle Scholar
Ida, T., Ono, S., Hattan, D., Yoshida, T., Takatsu, Y., and Nomura, K. (2018b). “Improvement of deconvolution-convolution treatment of axial-divergence aberration in Bragg-Brantano geometry,” Powder Diffr. 33, 121133.CrossRefGoogle Scholar