Abstract
Some aspects of the diffraction of electrons by single crystals are discussed using low-order approximations to the general theory developed in the first paper of this series (Cowley & Moodie, 1957) and some qualitative arguments concerning general results are presented. The first-order approximation involves the treatment of a crystal as a phase object for electrons. This leads to a complex form for the atomic scattering factor and the structure factor which introduces complications to, but opens up new possibilities for, the process of structure analysis from single-crystal electron diffraction patterns. It is shown that forbidden reflections cannot be generated by dynamic scattering effects in the symmetrical spot patterns obtained when the electron beam is parallel to a principal crystal axis, but lattice defects can give rise to forbidden rcflections in such pattcrns from thick crystals. (auth)
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