多层电子层析成像对点缺陷的敏感性:碳化硅案例研究

Aaditya Bhat, Colin Gilgenbach, Junghwa Kim, James LeBeau
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引用次数: 0

摘要

对三维点缺陷进行可靠的原子分辨率结构表征是电子显微镜学的一项长期挑战。在此,我们评估了以碳化硅为模型进行点缺陷三维原子分辨率表征的多片电子层析成像技术。通过多片电子散射模拟、随后的层析成像重建和数据分析,我们发现在现实的样品和显微镜条件下,可以检测到过渡金属以外的空位和置换等固有缺陷,深度精度约为 0.1 nm。此外,我们还描述了缺陷点对比度与电子能量和剂量的关系,以及最佳采集参数。总之,这些结果为旨在分析极薄试样或仅重元素以外的点缺陷的实验提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensitivity of Multislice Electron Ptychography to Point Defects: A Case Study in SiC
Robust atomic resolution structural characterization of point defects in 3D is a longstanding challenge for electron microscopy. Here, we evaluate multislice electron ptychography as a tool to carry out 3D atomic resolution characterization of point defects in silicon carbide as a model. Through multislice electron scattering simulations, subsequent ptychographic reconstructions, and data analysis, we show that intrinsic defects such as vacancies and substitutions beyond transition metals can be detected with a depth precision of approximately 0.1 nm with realistic sample and microscope conditions. Furthermore, the dependence of contrast at defect sites on electron energy and dose, as well as optimal acquisition parameters, are described. Overall, these results serve as a guidepost to experiments aiming to analyze point defects beyond extremely thin specimens or only heavy elements.
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