The local structure of water from combining diffraction and X-ray spectroscopy

Q1 Physics and Astronomy Journal of Non-Crystalline Solids: X Pub Date : 2022-06-01 DOI:10.1016/j.nocx.2022.100087

Lars G.M. Pettersson , Osamu Takahashi

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引用次数: 4

Abstract

We build a large (~3400 structures) library of X-ray absorption (XAS) and X-ray emission (XES) spectra computed at high level, which together with their associated structures form the basis for a Monte Carlo fit to the experimental oxygen‑oxygen pair-distribution, XAS and XES spectra for ambient liquid water. The procedure results in weights giving the relative importance of each structure to reproduce the experimental properties. We show that the information content in the X-ray spectroscopic data is strongly complementary to that of X-ray diffraction, and dependent on specific structures that are still consistent with the diffraction data. We fit simultaneously to the X-ray spectroscopy and diffraction experimental data and obtain weights on each structure that give a structural distribution that is consistent with the three experimental datasets. These weights are applied to structural parameters characterizing the local environment of each structure and result in the emergence of more preferred values of these parameters.

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结合衍射和x射线光谱学研究水的局部结构

我们建立了一个大型(约3400个结构)的高能级计算x射线吸收(XAS)和x射线发射(XES)光谱库，它与它们的相关结构一起构成了实验氧氧对分布、XAS和x射线光谱的蒙特卡罗拟合基础。该过程的结果是权重给出了每个结构在再现实验性质时的相对重要性。我们发现x射线光谱数据中的信息含量与x射线衍射数据的信息含量具有很强的互补性，并且依赖于与衍射数据一致的特定结构。我们同时拟合x射线光谱和衍射实验数据，并获得每个结构的权重，给出与三个实验数据集一致的结构分布。这些权重被应用于表征每个结构的局部环境的结构参数，并导致这些参数出现更多的优选值。

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