X-ray constrained wavefunctions based on Hirshfeld atoms. II. Reproducibility of electron densities in crystals of α-oxalic acid dihydrate.

Max L. Davidson, S. Grabowsky, D. Jayatilaka
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Abstract

The Hirshfeld atom-based X-ray constrained wavefunction fitting (HA-XCW) procedure is tested for its reproducibility, and the information content of the fitted wavefunction is critically assessed. Fourteen different α-oxalic acid dihydrate data sets are used for this purpose, and the first joint fitting to 12 of these data sets is reported. There are systematic features in the electron density obtained from all data sets which agree with higher level benchmark calculations, but there are also many other strong systematic features which disagree with the reference calculations, most notably those associated with the electron density near the nuclei. To enhance reproducibility, three new protocols are described and tested to address the halting problem of XCW fitting, namely: an empirical power-function method, which is useful for estimating the accuracy of the structure factor uncertainties; an asymptotic extrapolation method based on ideas from density functional theory; and a `conservative method' whereby the smallest value of the regularization parameter is chosen from a series of data sets, or subsets.
基于Hirshfeld原子的x射线约束波函数。2二水合α-草酸晶体中电子密度的再现性。
对Hirshfeld基于原子的x射线约束波函数拟合(HA-XCW)过程的可重复性进行了测试,并对拟合波函数的信息含量进行了严格评估。采用了14个不同的α-草酸二水合物数据集,并对其中12个数据集进行了首次联合拟合。从所有数据集得到的电子密度具有与更高水平的基准计算相一致的系统特征,但也有许多其他与参考计算不一致的强系统特征,最明显的是与原子核附近的电子密度有关的特征。为了提高再现性,本文描述并测试了三种新的方案来解决XCW拟合的停止问题,即:一种经验幂函数方法,它有助于估计结构因素不确定性的准确性;基于密度泛函思想的渐近外推方法还有一种“保守方法”,即从一系列数据集或子集中选择正则化参数的最小值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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