Difference between revisions of "EBSD"

Overview

Electron Backscatter Diffraction (EBSD) allows for orientation mapping and phase identification in crystalline specimens in a scanning electron microscope based on patterns in backscattered electron images from a single point.

Theory

At high tilt angles, specimens emit a higher yield of backscattered electrons which have diffracted off crystal planes within specimens. The diffracted electrons produce Kikuchi lines that can be used to identify zone axes and crystal planes. Recent EBSD advancements automate the process to scan across a sample surface and interpret the EBSD patterns at each point to map phases or orientations within a specimen.

Equipment

Scanning Electron Microscopes

• TFS Quanta 600 FEG ESEM (EDAX)