A Methodology for Robust Multislice Ptychography.

IF 2.9 4区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Microscopy and Microanalysis Pub Date : 2024-08-21 DOI:10.1093/mam/ozae055

Colin Gilgenbach, Xi Chen, James M LeBeau

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Abstract

While multislice electron ptychography can provide thermal vibration limited resolution and structural information in 3D, it relies on properly selecting many intertwined acquisition and computational parameters. Here, we outline a methodology for selecting acquisition parameters to enable robust ptychographic reconstructions. We develop two physically informed metrics, areal oversampling and Ronchigram magnification, to describe the selection of these parameters in multislice ptychography. Through simulations, we comprehensively evaluate the validity of these two metrics over a broad range of conditions and show that they accurately guide reconstruction success. Further, we validate these conclusions with experimental ptychographic data and demonstrate close agreement between trends in simulated and experimental data. Using these metrics, we achieve experimental multislice reconstructions at a scan step of 2.1Å/px, enabling large field-of-view, data-efficient reconstructions. These experimental design principles enable the routine and robust use of multislice ptychography for 3D characterization of materials at the atomic scale.

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鲁棒性多切片层析成像方法。

虽然多层电子断层扫描可以提供热振动有限分辨率和三维结构信息，但它依赖于正确选择许多相互交织的采集和计算参数。在此，我们概述了一种选择采集参数的方法，以实现稳健的层析成像重建。我们开发了两个物理指标--areal oversampling 和 Ronchigram magnification，用于描述在多切片断层摄影中如何选择这些参数。通过模拟，我们全面评估了这两个指标在各种条件下的有效性，并证明它们能准确指导重建成功。此外，我们还用实验中的双层图像数据验证了这些结论，并证明模拟数据和实验数据的趋势非常一致。利用这些指标，我们以 2.1Å/px 的扫描步长实现了实验性多切片重建，从而实现了大视场、数据高效的重建。这些实验设计原则使我们能够在原子尺度上对材料的三维表征常规而稳健地使用多片层析成像技术。

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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来源期刊

Microscopy and Microanalysis 工程技术-材料科学：综合

CiteScore

1.10

自引率

10.70%

发文量

1391

审稿时长

6 months

期刊介绍： Microscopy and Microanalysis publishes original research papers in the fields of microscopy, imaging, and compositional analysis. This distinguished international forum is intended for microscopists in both biology and materials science. The journal provides significant articles that describe new and existing techniques and instrumentation, as well as the applications of these to the imaging and analysis of microstructure. Microscopy and Microanalysis also includes review articles, letters to the editor, and book reviews.