The effects of external and internal strains, and of defects charges on formation of vacancies and antisites in GaAs and In(0,5)Ga(0,5)As have been investigated by first-principles density functional methods. Present results show that a proper use of strain and defect charges permit the development of a defect engineering of III-V semiconductors. Specifically, they predict that doping may have major effects on the formation of antisites while the formation of vacancies may be favored only by extreme conditions of compressive strain .
Defect engineering in III-V ternary alloys: effects of strain and local charge on the formation of native deep defects
2002
Abstract
The effects of external and internal strains, and of defects charges on formation of vacancies and antisites in GaAs and In(0,5)Ga(0,5)As have been investigated by first-principles density functional methods. Present results show that a proper use of strain and defect charges permit the development of a defect engineering of III-V semiconductors. Specifically, they predict that doping may have major effects on the formation of antisites while the formation of vacancies may be favored only by extreme conditions of compressive strain .File in questo prodotto:
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