Differential phase contrast from electrons that cause inner shell ionization

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-05-15 DOI:arxiv-2405.09043

Michael Deimetry, Timothy C. Petersen, Hamish G. Brown, Matthew Weyland, Scott D. Findlay

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Abstract

Differential Phase Contrast (DPC) imaging, in which deviations in the bright field beam are in proportion to the electric field, has been extensively studied in the context of pure elastic scattering. Here we discuss differential phase contrast formed from core-loss scattered electrons, i.e. those that have caused inner shell ionization of atoms in the specimen, using a transition potential approach for which we study the convergence properties. In the phase object approximation, we show formally that this is mainly a result of preservation of elastic contrast. Through simulation we demonstrate that whether the inelastic DPC images show element selective contrast depends on the spatial range of the ionization interaction, and specifically that when the energy loss is low the delocalisation can lead to contributions to the contrast from atoms other than that ionized. We further show that inelastic DPC images remain robustly interpretable to larger thicknesses than is the case for elastic DPC images, owing to the incoherence of the inelastic wavefields, though subtleties due to channelling remain.

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引起内壳电离的电子产生的差分相位对比

差分相位对比（Differential Phase Contrast，DPC）成像是明场光束的偏差与电场成正比，在纯弹性散射的背景下已被广泛研究。在这里，我们使用过渡势垒方法讨论了由核心损耗散射电子（即引起试样中原子内壳电离的电子）形成的差分相位对比，并对其收敛特性进行了研究。在相物近似中，我们正式证明这主要是弹性对比度保留的结果。通过模拟，我们证明了非弹性 DPC 图像是否显示元素选择性对比度取决于电离相互作用的空间范围，特别是当能量损失较低时，脱域会导致电离原子以外的原子对对比度的贡献。我们进一步表明，由于非弹性波场的不一致性，非弹性 DPC 图像与弹性 DPC 图像相比，在厚度更大的情况下仍然可以稳健地进行解释，尽管由于导流而产生的细微差别仍然存在。

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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arXiv - PHYS - Other Condensed Matter

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