Abstract
Abstract The diffraction contrast shown by dislocation multipoles in which the individual dipoles are closely spaced is analysed. It is shown that such multipoles observed in low stacking-fault energy alloys do not in general follow the predicted contrast behaviour (Hazzledine 1967) in that well-developed fringe contrast is not observed for all low-index diffracting vectors. In particular only very weak or zero fringe contrast is observed for those 220 or 311 diffracting vectors that would give zero contrast for a stacking fault on the same plane as the multipole. Further, the contrast behaviour at the edges of the multipoles closely approximates that of a single Shockley partial dislocation bordering an intrinsic fault. A comparison of experimental and theoretical electron micrographs computed for various dislocation arrangements within the multipole shows that the multipoles in low stacking-fault energy alloys are commonly in an extended form rather than the configuration predicted from isotropic elasti...
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