用原子大小的电子探针探测磁有序

IF 3.56 Q1 Medicine Advanced Structural and Chemical Imaging Pub Date : 2016-05-27 DOI:10.1186/s40679-016-0019-9

Juan Carlos Idrobo, Ján Rusz, Jakob Spiegelberg, Michael A. McGuire, Christopher T. Symons, Ranga Raju Vatsavai, Claudia Cantoni, Andrew R. Lupini

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引用次数: 36

摘要

虽然磁性起源于原子尺度，但现有的对磁性信号敏感的光谱技术只能在更大尺度上产生具有空间分辨率的光谱。然而，最近，从理论上认为，原子尺寸的电子探针具有定制的相位分布可以检测磁性圆二色性。在这里，我们报告了在像差校正扫描透射电子显微镜(STEM)中磁圆二色性的直接实验实空间检测。利用具有定制相位分布的原子尺寸差电子探针，我们通过观察Mn l边的二向色信号揭示了LaMnAsO中Mn矩的棋盘反铁磁有序。本文提出的新型实验装置可以很容易地在像差校正的STEM中实现，为以前所未有的空间分辨率探测材料中的二向色信号开辟了新的途径。

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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Detecting magnetic ordering with atomic size electron probes

Although magnetism originates at the atomic scale, the existing spectroscopic techniques sensitive to magnetic signals only produce spectra with spatial resolution on a larger scale. However, recently, it has been theoretically argued that atomic size electron probes with customized phase distributions can detect magnetic circular dichroism. Here, we report a direct experimental real-space detection of magnetic circular dichroism in aberration-corrected scanning transmission electron microscopy (STEM). Using an atomic size-aberrated electron probe with a customized phase distribution, we reveal the checkerboard antiferromagnetic ordering of Mn moments in LaMnAsO by observing a dichroic signal in the Mn L-edge. The novel experimental setup presented here, which can easily be implemented in aberration-corrected STEM, opens new paths for probing dichroic signals in materials with unprecedented spatial resolution.

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Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging

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