English

On single crystal total scattering data reduction and correction protocols for analysis in direct space

Materials Science 2022-08-23 v2

Abstract

We explore data reduction and correction steps and processed data reproducibility in the emerging single crystal total scattering based technique of three-dimensional differential atomic pair distribution function (3D-Δ\DeltaPDF) analysis. All steps from sample measurement to data-processing are outlined in detail using a CuIr2_2S4_4 example crystal studied in a setup equipped with a high-energy x-ray beam and a flat panel area detector. Computational overhead as it pertains to data-sampling and the associated data processing steps is also discussed. Various aspects of the final 3D-Δ\DeltaPDF reproducibility are explicitly tested by varying data-processing order and included steps, and by carrying out a crystal-to-crystal data comparison. We identify situations in which the 3D-Δ\DeltaPDF is robust, and caution against a few particular cases which can lead to inconsistent 3D-Δ\DeltaPDFs. Although not all the approaches applied here-in will be valid across all systems, and a more in-depth analysis of some of the effects of the data processing steps may still needed, the methods collected here-in represent the start of a more systematic discussion about data processing and corrections in this field.

Keywords

Cite

@article{arxiv.2105.07022,
  title  = {On single crystal total scattering data reduction and correction protocols for analysis in direct space},
  author = {Robert J. Koch and Nikolaj Roth and Yiu Liu and Oleh Ivashko and Ann-Christin Dippel and Cedomir Petrovic and Bo B. Iversen and Martin v. Zimmermann and Emil S. Bozin},
  journal= {arXiv preprint arXiv:2105.07022},
  year   = {2022}
}
R2 v1 2026-06-24T02:07:40.612Z