https://3demmethods.i2pc.es/index.php?action=history&feed=atom&title=2026Kwon_Elastic2026Kwon Elastic - Revision history2026-06-02T18:37:40ZRevision history for this page on the wikiMediaWiki 1.44.2https://3demmethods.i2pc.es/index.php?title=2026Kwon_Elastic&diff=5218&oldid=prevWikiSysop: Created page with "== Citation == Kwon, M.C. and Abrahams, J.P. 2026. Elastic and Inelastic Interactions of Electrons in Transmission Electron Microscopy. Ultramicroscopy. (2026), 114383. == Abstract == High-energy electrons passing through a sample in a transmission electron microscope carry structural information through their interactions with the sample’s atoms. Elastically scattered electrons, which undergo no significant energy loss, convey spatial details in their scattering an..."2026-06-02T06:16:17Z<p>Created page with "== Citation == Kwon, M.C. and Abrahams, J.P. 2026. Elastic and Inelastic Interactions of Electrons in Transmission Electron Microscopy. Ultramicroscopy. (2026), 114383. == Abstract == High-energy electrons passing through a sample in a transmission electron microscope carry structural information through their interactions with the sample’s atoms. Elastically scattered electrons, which undergo no significant energy loss, convey spatial details in their scattering an..."</p>
<p><b>New page</b></p><div>== Citation ==<br />
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Kwon, M.C. and Abrahams, J.P. 2026. Elastic and Inelastic Interactions of Electrons in Transmission Electron Microscopy. Ultramicroscopy. (2026), 114383.<br />
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== Abstract ==<br />
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High-energy electrons passing through a sample in a transmission electron microscope carry structural information<br />
through their interactions with the sample’s atoms. Elastically scattered electrons, which undergo no<br />
significant energy loss, convey spatial details in their scattering angles and phase shifts. Inelastic scattering<br />
transfers energy to the sample, causing ionisation-induced, random structural changes, and thereby reducing the<br />
spatial coherence of a crystalline sample. Next to changing the sample’s structure, inelastic scattering also reduces<br />
the coherence lengths of the electron wave function, further degrading its spatial information. This review<br />
examines the mechanisms and impact of combined elastic and inelastic scattering, and discusses their implications<br />
for the structural characterisation of biological, organic, and inorganic materials.<br />
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== Keywords ==<br />
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== Links ==<br />
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https://www.sciencedirect.com/science/article/pii/S0304399126000756<br />
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== Related software ==<br />
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== Related methods ==<br />
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== Comments ==</div>WikiSysop