论文信息 - Three-dimensional contrast in dark-field images

Three-dimensional contrast in dark-field images

Abstract It is shown that, under suitable conditions of N-beam interaction, distinctive contrast is obtained from crystal surface detail in the dark-field image which allows edges or steps on the upper (beam-incident) surface to be distinguished from those on the lower (beam-emergent) surface. The ability to distinguish between the orientations of apex up, and apex down, for a crystal of triangular cross-section is shown to derive from a break-down of Friedel's law which results from the imaging process. An interpretation is given in terms of an extended charge-density approximation’ using the theory developed by Moodie for interpretation of aperiodic features in the bright-field image. Illustrations are from [111] orientations of MgO cubes, although this technique is expected to be of more general application.

P. Goodman | J. D. McLean

[1] M. A. O'Keefe,et al. n‐Beam lattice images. V. The use of the charge‐density approximation in the interpretation of lattice images , 1975 .

[2] P. Goodman,et al. Observation of the breakdown of Friedel's law in electron diffraction and symmetry determination from zero‐layer interactions , 1968 .

[3] J. M. Cowley,et al. Fourier Images IV: The Phase Grating , 1960 .

[4] J. M. Cowley,et al. Crystal structure analysis from fine structure in electron diffraction patterns , 1957 .

[5] N. Kato. Dynamical Theory of Electron Diffraction for a Finite Polyhedral Crystal I. Extension of Bethe's Theory , 1952 .