Defects in ion-implanted GaN and their annealing properties were studied by using mono-energetic positron beams. Doppler broadening spectra of the annihilation radiation and the positron lifetimes were measured for Si+, O+, and Be+-implanted GaN grown by the metal-organic chemical vapour deposition technique. First-principles calculations were also used to identify defect species introduced by the implantation. For as-implanted samples, the major defect species was identified as Ga vacancies and/or divacancies. An agglomeration of defects starts after annealing at 400C, and the defect profile shifted toward the surface with the open volumes of the defects increasing. The annealing properties of defects were found to depend upon the ion species, and they were considered here in terms of defect concentrations and interactions between impurities and defects.

Annealing Properties of Vacancy-Type Defects in Ion-Implanted GaN Studied by Monoenergetic Positron Beams. A.Uedono, K.Ito, H.Nakamori, K.Mori, Y.Nakano, T.Kachi, S.Ishibashi, T.Ohdaira, R.Suzuki: Journal of Applied Physics, 2007, 102[8], 084505