六方晶系
材料科学
发光
化学计量学
晶体缺陷
离解(化学)
镓
部分位错
位错
结晶学
接受者
凝聚态物理
氮化镓
纳米技术
光电子学
化学
物理
物理化学
图层(电子)
冶金
复合材料
作者
A. T. Blumenau,J. Elsner,R. Jones,M. I. Heggie,Sven Öberg,Thomas Frauenheim,P. R. Briddon
标识
DOI:10.1088/0953-8984/12/49/322
摘要
The structure and electronic activity of several types of dislocations in both hexagonal and cubic GaN are calculated using first-principles methods. Most of the stoichiometric dislocations investigated in hexagonal GaN do not induce deep acceptor states and thus cannot be responsible for the yellow luminescence. However, it is shown that electrically active point defects, in particular gallium vacancies and oxygen-related defect complexes, can be trapped at the stress field of the dislocations and may be responsible for this luminescence. For cubic GaN, we find the ideal stoichiometric 60° dislocation to be electrically active and the glide set to be more stable than the shuffle. The dissociation of the latter is considered.
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