Abstract
Abstract Modern TEM's are not suited for the taking of diffraction-contrast images of defects. Figures in books and papers taken more than a quarter century ago show defects (dislocations, small precipitates and so on) against a uniform background, reflecting constant diffraction conditions across the field of view. Such pictures can not be taken today. Even if the sample is quite flat, TEM images are crossed by “bend contours” which arise, not from the bending of the sample, but from the changing orientation of the beam. In modern TEM's, the objective lens is an immersion lens. The sample sits deep within the magnetic field of the lens and, thus, the electrons are travelling in a helical pattern as they strike the sample. Even with a so-called parallel beam, at different places across the image, the electrons strike the sample at different angles (see figure 1).
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