Electron microprobe analysis is a sensitive technique for non-destructive quantification of the chemical composition of in situ micrometer volumes of solid mate- rial (minerals, alloys, ceramics, ...

The electron microprobe is the premiere instrument for performing non-destructive, in-situ, quantitative chemical analysis of solid materials via wavelength dispersive spectrometry. EMP surface ...

This 1993 book gives a comprehensive account of both experimental and theoretical aspects of electron microprobe analysis, and is an extensively updated version of the seminal first edition, published ...

The instrument is a dedicated field emission, wavelength dispersive electron microprobe (EPMA). Quantitative elemental data can be obtained from most elements (Fluorine to Uranium) with detection ...

The Robert M. MacKay Electron Microprobe Laboratory (EMPA laboratory) in the Department of Earth Sciences has operated as a regional facility since 1984. In 2006 the lab became affiliated with the ...

The Lab has an Electron Microprobe; an automated powder diffraction system, and a SEM equipped with a backscattered electron detector, a cathodoluminescence detector, and a light-element energy ...

Both the absorption correction factor, A, and the fluorescence correction factor, F, are dependent on Z, and are highly influenced by crystalline structure and orientation of the structure in the ...

The Perkin Elmer PHI-660 scanning Auger microprobe can be used for the compositional analysis of specimen surfaces using Auger electron spectroscopy (AES). The probe depth of AES is on the order of ...