材料科学中的电子断层扫描与全息术。

Electron tomography and holography in materials science.

作者信息

Midgley Paul A, Dunin-Borkowski Rafal E

机构信息

Department of Materials Science & Metallurgy, University of Cambridge, Pembroke Street, Cambridge CB2 3QZ, UK.

出版信息

Nat Mater. 2009 Apr;8(4):271-80. doi: 10.1038/nmat2406.

DOI:10.1038/nmat2406

PMID:19308086

Abstract

The rapid development of electron tomography, in particular the introduction of novel tomographic imaging modes, has led to the visualization and analysis of three-dimensional structural and chemical information from materials at the nanometre level. In addition, the phase information revealed in electron holograms allows electrostatic and magnetic potentials to be mapped quantitatively with high spatial resolution and, when combined with tomography, in three dimensions. Here we present an overview of the techniques of electron tomography and electron holography and demonstrate their capabilities with the aid of case studies that span materials science and the interface between the physical sciences and the life sciences.

摘要

电子断层扫描技术的迅速发展，特别是新型断层成像模式的引入，使得从纳米级材料中可视化和分析三维结构及化学信息成为可能。此外，电子全息图中揭示的相位信息能够以高空间分辨率对静电和磁势进行定量映射，并且与断层扫描相结合时还能实现三维映射。在此，我们概述电子断层扫描和电子全息技术，并借助跨越材料科学以及物理科学与生命科学界面的案例研究来展示它们的功能。

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材料科学中的电子断层扫描与全息术。

Electron tomography and holography in materials science.

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