Abstract
The role of extended and point defects, and key impurities such as C, O, and H, on the electrical and optical properties of GaN is reviewed. Recent progress in the development of high reliability contacts, thermal processing, dry and wet etching techniques, implantation doping and isolation, and gate insulator technology is detailed. Finally, the performance of GaN-based electronic and photonic devices such as field effect transistors, UV detectors, laser diodes, and light-emitting diodes is covered, along with the influence of process-induced or grown-in defects and impurities on the device physics.
Cite
CITATION STYLE
Pearton, S. J., Zolper, J. C., Shul, R. J., & Ren, F. (1999). GaN: Processing, defects, and devices. Journal of Applied Physics, 86(1), 1–78. https://doi.org/10.1063/1.371145
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