Deep acceptors trapped at threading-edge dislocations in GaN

J Elsner; R Jones; MI Heggie; PK Sitch; M Haugk; T Frauenheim; S Öberg; PR Briddon

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Deep acceptors trapped at threading-edge dislocations in GaN

J Elsner, R Jones, MI Heggie, PK Sitch, M Haugk, T Frauenheim, S Öberg and PR Briddon

Physical Review B - Condensed Matter and Materials Physics, Vol.58(19), pp.12571-12574

01/12/1998

Abstract

Local-density-functional methods are used to examine the behavior of the oxygen defect, gallium vacancy, and related defect complexes trapped at threading-edge dislocations in GaN. These defects are found to be particularly stable at the core of the dislocation where oxygen sits twofold coordinated in a bridge position. VGa-ON is found to be a deep double acceptor, VGa-(O,N)2 is a deep single acceptor, and VGa-(ON)3 at the dislocation core is electrically inactive. We suggest that the first two defects are responsible for a deep acceptor level associated with the midgap yellow luminescence band. © 1998 The American Physical Society.

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Title: Deep acceptors trapped at threading-edge dislocations in GaN
Creators: J Elsner
R Jones
MI Heggie
PK Sitch
M Haugk
T Frauenheim
S Öberg
PR Briddon
Publication Details: Physical Review B - Condensed Matter and Materials Physics, Vol.58(19), pp.12571-12574
Date published: 01/12/1998
Date submitted: 17/05/2017
Identifiers: 99516271602346
Academic Unit: University of Surrey
Resource Type: Journal article

Deep acceptors trapped at threading-edge dislocations in GaN

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