Straight and kinked 90° partial dislocations in diamond and 3C-SiC

AT Blumenau; CJ Fall; R Jones; MI Heggie; PR Briddon; T Frauenheim; S Öberg

doi:10.1088/0953-8984/14/48/311

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Straight and kinked 90° partial dislocations in diamond and 3C-SiC

Journal article

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Straight and kinked 90° partial dislocations in diamond and 3C-SiC

AT Blumenau, CJ Fall, R Jones, MI Heggie, PR Briddon, T Frauenheim and S Öberg

Journal of Physics Condensed Matter, Vol.14(48), pp.12741-12747

16/12/2002

DOI: https://doi.org/10.1088/0953-8984/14/48/311

Abstract

Density-functional based calculations are used to investigate low energy core structures of 90° partial dislocations in diamond and 3C-SiC. In both materials dislocation glide is analysed in terms of kink formation and migration and the fundamental steps to kink migration are investigated. We find the C terminated core structure in SiC to be more mobile than the Si core. However, the Si partial is electrically active and this opens the possibility of recombination-enhanced glide under ionizing conditions or an enhanced mobility in doped material.

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Title: Straight and kinked 90° partial dislocations in diamond and 3C-SiC
Creators: AT Blumenau
CJ Fall
R Jones
MI Heggie
PR Briddon
T Frauenheim
S Öberg
Publication Details: Journal of Physics Condensed Matter, Vol.14(48), pp.12741-12747
Date published: 16/12/2002
Date submitted: 17/05/2017
Identifiers: 99510964002346
Academic Unit: University of Surrey
Resource Type: Journal article

Straight and kinked 90° partial dislocations in diamond and 3C-SiC

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