Improvements and considerations for size distribution retrieval from small-angle scattering data by Monte Carlo methods

Brian R. Pauw; Jan Skov Pedersen; Samuel Tardif; Masaki Takata; Bo B. Iversen

doi:10.1107/S0021889813001295

Improvements and considerations for size distribution retrieval from small-angle scattering data by Monte Carlo methods

Brian R. Pauw, Jan Skov Pedersen, Samuel Tardif, Masaki Takata, Bo B. Iversen

SRIS - SR Core Research Division

Research output: Contribution to journal › Article › peer-review

78 Citations (Scopus)

Abstract

Monte Carlo (MC) methods, based on random updates and the trial-and-error principle, are well suited to retrieve form-free particle size distributions from small-angle scattering patterns of non-interacting low-concentration scatterers such as particles in solution or precipitates in metals. Improvements are presented to existing MC methods, such as a non-ambiguous convergence criterion, nonlinear scaling of contributions to match their observability in a scattering measurement, and a method for estimating the minimum visibility threshold and uncertainties on the resulting size distributions.

Original language	English
Pages (from-to)	365-371
Number of pages	7
Journal	Journal of Applied Crystallography
Volume	46
Issue number	2
DOIs	https://doi.org/10.1107/S0021889813001295
Publication status	Published - 2013 Apr

Keywords

Monte Carlo methods
Particle size distribution
Small-angle scattering
structure analysis

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abstract = "Monte Carlo (MC) methods, based on random updates and the trial-and-error principle, are well suited to retrieve form-free particle size distributions from small-angle scattering patterns of non-interacting low-concentration scatterers such as particles in solution or precipitates in metals. Improvements are presented to existing MC methods, such as a non-ambiguous convergence criterion, nonlinear scaling of contributions to match their observability in a scattering measurement, and a method for estimating the minimum visibility threshold and uncertainties on the resulting size distributions.",

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AU - Iversen, Bo B.

PY - 2013/4

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AB - Monte Carlo (MC) methods, based on random updates and the trial-and-error principle, are well suited to retrieve form-free particle size distributions from small-angle scattering patterns of non-interacting low-concentration scatterers such as particles in solution or precipitates in metals. Improvements are presented to existing MC methods, such as a non-ambiguous convergence criterion, nonlinear scaling of contributions to match their observability in a scattering measurement, and a method for estimating the minimum visibility threshold and uncertainties on the resulting size distributions.

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KW - Particle size distribution

KW - Small-angle scattering

KW - structure analysis

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Improvements and considerations for size distribution retrieval from small-angle scattering data by Monte Carlo methods

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Keywords

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