Determination of the nitrogen vacancy as a shallow compensating center in GaN doped with divalent metals

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Abstract

We report accurate energetics of defects introduced in GaN on doping with divalent metals, focusing on the technologically important case of Mg doping, using a model that takes into consideration both the effect of hole localization and dipolar polarization of the host material, and includes a well-defined reference level. Defect formation and ionization energies show that divalent dopants are counterbalanced in GaN by nitrogen vacancies and not by holes, which explains both the difficulty in achieving p-type conductivity in GaN and the associated major spectroscopic features, including the ubiquitous 3.46 eV photoluminescence line, a characteristic of all lightly divalent-metal-doped GaN materials that has also been shown to occur in pure GaN samples. Our results give a comprehensive explanation for the observed behavior of GaN doped with low concentrations of divalent metals in good agreement with relevant experiment.

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Buckeridge, J., Catlow, C. R. A., Scanlon, D. O., Keal, T. W., Sherwood, P., Miskufova, M., … Sokol, A. A. (2015). Determination of the nitrogen vacancy as a shallow compensating center in GaN doped with divalent metals. Physical Review Letters, 114(1). https://doi.org/10.1103/PhysRevLett.114.016405

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