Atomic imaging using secondary electrons in a scanning transmission electron microscope: experimental observations and possible mechanisms |
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Authors: | Inada H Su D Egerton R F Konno M Wu L Ciston J Wall J Zhu Y |
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Affiliation: | a Brookhaven National Laboratory, Upton, NY 11973, USA b Hitachi High Technologies Corp., Ibaraki, Japan c University of Alberta, Edmonton, Canada |
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Abstract: | We report detailed investigation of high-resolution imaging using secondary electrons (SE) with a sub-nanometer probe in an aberration-corrected transmission electron microscope, Hitachi HD2700C. This instrument also allows us to acquire the corresponding annular dark-field (ADF) images both simultaneously and separately. We demonstrate that atomic SE imaging is achievable for a wide range of elements, from uranium to carbon. Using the ADF images as a reference, we studied the SE image intensity and contrast as functions of applied bias, atomic number, crystal tilt, and thickness to shed light on the origin of the unexpected ultrahigh resolution in SE imaging. We have also demonstrated that the SE signal is sensitive to the terminating species at a crystal surface. A possible mechanism for atomic-scale SE imaging is proposed. The ability to image both the surface and bulk of a sample at atomic-scale is unprecedented, and can have important applications in the field of electron microscopy and materials characterization. |
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Keywords: | Secondary-electron imaging High resolution electron microscopy Aberration correction |
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