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Martin-Luther-Universität
Interdisziplinäres Zentrum für Materialwissenschaften
Nanotechnikum Weinberg
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Abstracts

J. Schreiber, L. H?ring, H. Uniewski, S. Hildebrandt, H. S. Leipner
Recognition and distribution of A(g) and B(g) dislocations in indentation zones on {111} and {110} surfaces of CdTe
phys. stat. sol. (a) 171 (1999), 89-97

The distributions of polar dislocations appearing in surface and volume deformation zones of indentations on {111}Cd, {-1-1-1}Te and {110} surfaces of CdTe bulk crystals are studied. Distinct CL contrast properties proved in CdTe for A(g)- and B(g)-type dislocations are utilised to recognise Cd(g) and Te(g) dislocation segments in the deformation-induced defect configurations. The microscopic spatial glide geometries as caused by indenting the low-indexed surfaces are theoretically developed within the framework of an advanced <110> glide prism model. Comprehensive results gained by means of depth-resolved CL microscopy fully confirm the concept of 3D glide prism formation. The experimental findings give evidence for a coexistence of Cd(g) and Te(g) dislocations in tangential as well as tetrahedral deformation zones. From that, correlated propagation of polar dislocation segments during plastic flow has to be concluded.
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