Electron Microprobe Laboratory

What is an electron microprobe analysis?

Electron microprobe analysis (EMPA) is a non-destructive method for determining the chemical composition of tiny amounts of solid materials. EMPA is primarily used in the field of geology. The electron microprobe is designed specifically for detecting and measuring characteristic X-rays. For more information contact James H. Wittke. 

How does it work?

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EMPA uses a high-energy focused beam of electrons to generate X-rays characteristic of the elements within a sample from volumes as small as 3 micrometers (10-6m) across. The resulting X-rays are diffracted by analyzing crystals (TAP, PET, LIF) and counted using gas-flow and sealed proportional detectors. Chemical composition is determining by comparing the intensity of X-rays from standards (known composition) with those from unknown materials and correcting for the effects of absorption and fluorescence in the sample.

Analysis

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EMPA uses an electron beam current from 10 to 100 nanoamps, roughly 1000 times greater than that in a scanning-electron microscope (SEM). These higher beam currents produce more X-rays from the sample and improve both the detection limits and accuracy of the resulting analysis. Analysis locations are selected using a transmitted-light optical microscope, which allows positioning accurate to about 1 micrometer, a feature not available on an SEM. The resulting data yield quantitative chemical information in a textural context. Variations in chemical composition within a material, such as a mineral grain or metal, can be readily determined.

Who can use it?

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Although principally used for geological investigations, the microprobe is available to all in the University community and outside researchers. Projects have included research in meteoritics, metamorphic and igneous petrology, and studies of archaeological materials such as pottery (paste and temper, glazes), glass, and lithics. 

Location 

Bilby Research Center (Building 52), Northern Arizona University.