Atomic force microscopy observation of threading dislocation density reduction in lateral epitaxial overgrowth of gallium nitride by MOCVD

被引:0
|
作者
Marchand, H. [1 ]
Ibbetson, J.P. [1 ]
Fini, Paul T. [1 ]
Kozodoy, Peter [1 ]
Keller, S. [1 ]
DenBaars, Steven [1 ]
Speck, J.S. [1 ]
Mishra, U.K. [1 ]
机构
[1] Electrical Engineering Departments, University of California, Santa Barbara
来源
MRS Internet Journal of Nitride Semiconductor Research | 1998年 / 3卷
关键词
Anisotropy - Atomic force microscopy - Dislocations (crystals) - Electron density measurement - Epitaxial growth - Hydrogen - Microstructure - Morphology - Nitrogen - Optoelectronic devices - Sapphire - Semiconductor lasers - Surface structure - Transmission electron microscopy;
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摘要
Extended defect reduction at the surface of GaN grown by lateral epitaxial overgrowth (LEO) on large-area GaN/Al2O3 wafers by low pressure MOCVD is demonstrated by atomic force microscopy. The overgrown GaN has a rectangular cross section with smooth (0001) and {112¯0} facets. The density of mixed character threading dislocations at the surface of the LEO GaN is reduced by at least 3-4 orders of magnitude from that of bulk GaN. Dislocation-free GaN surfaces exhibit an anisotropic step structure that is attributed to the orientation dependence of the dangling bond density at the step edges.
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