Analysis of Three-dimensional Atom-probe Data by the Proximity Histogram

Olof C. Hellman; Justin A. Vandenbroucke; Järg Rüsing; Dieter Isheim; David N. Seidman

doi:10.1007/S100050010051

Abstract

The three-dimensional (3D) atom-probe technique produces a reconstruction of the elemental chemical identities and three-dimensional positions of atoms field evaporated from a sharply pointed metal specimen, with a local radius of curvature of less than 50 nm. The number of atoms collected can be on the order of one million, representing an analysis volume of approximately 20 nm × 20 nm × 200 nm (80,000 nm3). This large amount of data allows for the identification of microstructural features in a sample, such as grain or heterophase boundaries, if the feature density is large enough. Correlation of the measured atomic positions with these identified features results in an atom-by-atom description of the chemical environment of crystallographic defects. This article outlines a data compilation technique for the generation of composition profiles in the vicinity of interfaces in a geometrically independent way. This approach is applied to quantitative determination of interfacial segregation of silver at a MgO/Cu(Ag) heterophase interface.

Footnotes

Department of Physics, Stanford University, Stanford, CA 94305-4060.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Analysis of Three-dimensional Atom-probe Data by the Proximity Histogram

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Analysis of Three-dimensional Atom-probe Data by the Proximity Histogram

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