Updates in SASfit for fitting analytical expressions and numerical models to small‐angle scattering patterns
Kohlbrecher, Joachim
Breßler, Ingo
DOI: https://doi.org/10.1107/S1600576722009037
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/11463
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/11463
Kohlbrecher, Joachim; Breßler, Ingo, 2022: Updates in SASfit for fitting analytical expressions and numerical models to small‐angle scattering patterns. In: Journal of Applied Crystallography, Band 55, 6: 1677 - 1688, DOI: 10.1107/S1600576722009037.
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Small‐angle scattering is an increasingly common method for characterizing particle ensembles in a wide variety of sample types and for diverse areas of application. SASfit has been one of the most comprehensive and flexible curve‐fitting programs for decades, with many specialized tools for various fields. Here, a selection of enhancements and additions to the SASfit program are presented that may be of great benefit to interested and advanced users alike: (a) further development of the technical basis of the program, such as new numerical algorithms currently in use, a continuous integration practice for automated building and packaging of the software, and upgrades on the plug‐in system for easier adoption by third‐party developers; (b) a selection of new form factors for anisotropic scattering patterns and updates to existing form factors to account for multiple scattering effects; (c) a new type of a very flexible distribution called metalog [Keelin (2016). Decis. Anal.13, 243–277], and regularization techniques such as the expectation‐maximization method [Dempster et al. (1977). J. R. Stat. Soc. Ser. B (Methodological), 39, 1–22; Richardson (1972) J. Opt. Soc. Am.62, 55; Lucy (1974). Astron. J.79, 745; Lucy (1994). Astron. Astrophys.289, 983–994], which is compared with fits of analytical size distributions via the non‐linear least‐squares method; and (d) new structure factors, especially for ordered nano‐ and meso‐scaled material systems, as well as the Ornstein–Zernike solver for numerical determination of particle interactions and the resulting structure factor when no analytical solution is available, with the aim of incorporating its effects into the small‐angle scattering intensity model used for fitting with SASfit. Recent enhancements and additions to the SASfit program are discussed, including anisotropic scattering models, flexible distributions, regularization techniques such as the expectation‐maximization method, and new structure factors, especially for ordered nano‐ and meso‐scaled material. The Ornstein–Zernike solver for numerical structure factors is also introduced.
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Subjects:
small‐angle scatteringSASfit
numerical models
structure factors
form factors
regularization techniques
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