Electron Holography: Applications to Materials Questions

Hannes Lichte; Petr Formanek; Andreas Lenk; Martin Linck; Christopher Matzeck; Michael Lehmann; Paul Simon

doi:10.1146/annurev.matsci.37.052506.084232

Annual Review of Materials Research

Volume 37, 2007

Review Article

Electron Holography: Applications to Materials Questions

Hannes Lichte¹, Petr Formanek¹, Andreas Lenk¹, Martin Linck¹, Christopher Matzeck¹, Michael Lehmann², and Paul Simon³
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Affiliations: ¹Triebenberg Laboratory, Institute of Structure Physics, Technische Universitaet, D 01062 Dresden, Germany; email: [email protected] ²Institute for Optics and Atom Physics, Technische Universitaet, D 10623 Berlin, Germany ³Max-Planck Institute for the Chemical Physics of Solids, D 01187 Dresden, Germany
Vol. 37:539-588 (Volume publication date August 2007) https://doi.org/10.1146/annurev.matsci.37.052506.084232
© Annual Reviews

Abstract

Impressive progress has been made in the processing and exploration of new material on an atomic scale (nanomaterials). However, the characterization of such materials by the usual transmission electron microscopy (TEM) techniques suffers from the drawback that the phase of the object-modulated electron wave is virtually lost in the recorded intensity images. Electron holography has opened possibilities for analyzing both the amplitude and phase of the electron wave, hence giving access to the object information encoded in the phase. Examples include intrinsic electric and magnetic fields, e.g. in ferroelectrics or ferromagnetics, which substantially determine the object properties and therefore are indispensable for a complete understanding of structure-properties relations.

Keyword(s): atomic resolution, electric fields, electron phase, magnetic fields, phase measurements, wave optics

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2007-08-04

2024-05-09