| abstract |
A method has been developed to overcome deficiencies in the prior art in the properties and fabrication of semi-polar group III-nitride templates, films, and materials. A novel variant of hydride vapor phase epitaxy has been developed that provides for controlled growth of nanometer-scale periodic structures. The growth method has been utilized to grow multi-period stacks of alternating AlGaN layers of distinct compositions. The application of such periodic structures to semi-polar III-nitrides yielded superior structural and morphological properties of the material, including reduced threading dislocation density and surface roughness at the free surface of the as-grown material. Such enhancements enable to fabrication of superior quality semi-polar III-nitride electronic and optoelectronic devices, including but not limited to transistors, light emitting diodes, and laser diodes. |