用于原子分辨率成像和分析的像差校正扫描透射电子显微镜。

Aberration-corrected STEM for atomic-resolution imaging and analysis.

作者信息

Krivanek O L, Lovejoy T C, Dellby N

机构信息

Nion Co., Kirkland, Washington, U.S.A.

Department of Physics, Arizona State University, Tempe, Arizona, U.S.A.

出版信息

J Microsc. 2015 Sep;259(3):165-72. doi: 10.1111/jmi.12254. Epub 2015 May 4.

DOI:10.1111/jmi.12254

PMID:25939916

Abstract

Aberration-corrected scanning transmission electron microscopes are able to form electron beams smaller than 100 pm, which is about half the size of an average atom. Probing materials with such beams leads to atomic-resolution images, electron energy loss and energy-dispersive X-ray spectra obtained from single atomic columns and even single atoms, and atomic-resolution elemental maps. We review briefly how such electron beams came about, and show examples of applications. We also summarize recent developments that are propelling aberration-corrected scanning transmission electron microscopes in new directions, such as complete control of geometric aberration up to fifth order, and ultra-high-energy resolution EELS that is allowing vibrational spectroscopy to be carried out in the electron microscope.

摘要

像差校正扫描透射电子显微镜能够形成小于100皮米的电子束，这大约是一个普通原子大小的一半。用这样的电子束探测材料可得到原子分辨率图像、从单个原子柱甚至单个原子获得的电子能量损失谱和能量色散X射线谱，以及原子分辨率元素分布图。我们简要回顾了这种电子束是如何产生的，并展示了应用实例。我们还总结了推动像差校正扫描透射电子显微镜向新方向发展的近期进展，例如对高达五阶几何像差的完全控制，以及能在电子显微镜中进行振动光谱分析的超高能量分辨率电子能量损失谱。

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用于原子分辨率成像和分析的像差校正扫描透射电子显微镜。

Aberration-corrected STEM for atomic-resolution imaging and analysis.

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