The Interaction of impurity atoms with dislocations in germanium

It is shown that impurity atoms distributed in the stress field of a dislocation obey Fermi-Dime statistics. This result is applied to two experimental situations. In the first o&se, it enables us to determine the binding energy of an impurity to a dislocation, and in the second we see why another a

## Diffusivities of antimony and indium have been measured in specially deformed germanium specimens. The diffusivity of antimony has been measured (1) parallel to a high density array of parallel edge dislocations, (2) perpendicular to this array, and (3) in low dislocation, non-deformed material.

A review is given of the results of first principles calculations used to investigate the structures and electronic properties of screw and edge dislocations in GaN. The atoms at the core of the full core screw dislocation possess heavily strained bonds leading to deep gap states. Removing the first

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Topological interaction of shallow impurities with dislocations is studied. This problem is related with the violation of the topological structure of the crystal lattice by dislocations. The interaction results in a topological gauge field that is confined inside the dislocation cores but influence