Abstract
Lang topography was used for the study of dislocation line defects in deuterated triglycine flouberyllate. The bundles of edge dislocations, observed nucleating at the seed, propagate at specific orientations to the crystal growth directions. At the growth sector boundaries, dislocation lines exhibit abrupt changes in direction prescribed by the interaction of their respective Burger's vectors with the anisotropic energy associated with the new growth surface. Dislocation networks generated by inclusion formations during growth and dislocation half-loops generated by slip mechanisms during fabrication are exhibited and discussed.
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