Threading dislocation density reduction of non-polar (11•0) a-plane GaN films was achieved by lateral epitaxial overgrowth. The dependence of morphology and defect reduction on crystallographic stripe orientation was reported. Stripes aligned along [00•1] and [¯11•0], the most favorable a-plane GaN lateral epitaxial overgrowth stripe orientations, possessed well-behaved, symmetric morphologies. Threading dislocation reduction via mask-blocking was observed by transmission electron microscopy for [¯11•0] stripes which had optimal rectangular cross-sections. Cathodoluminescence studies showed increased light emission for the overgrown regions in comparison to the window regions. The extent of lateral overgrowth of these stripes was asymmetric due to the opposing polarities of the vertical c-plane sidewalls. Conversely, threading dislocations propagated into the symmetric overgrown regions of [00•1] stripes which possessed coexisting inclined and vertical {10•0} facets.

Threading Dislocation Reduction via Laterally Overgrown Non-Polar (11•0) a-Plane GaN. M.D.Craven, S.H.Lim, F.Wu, J.S.Speck, S.P.DenBaars: Applied Physics Letters, 2002, 81[7], 1201-3