Determination of the Nitrogen Vacancy as a Shallow Compensating Center in GaN Doped with Divalent Metals

J. Buckeridge; C. R.A. Catlow; D. O. Scanlon; T. W. Keal; P. Sherwood; M. Miskufova; A. Walsh; S. M. Woodley; A. A. Sokol

doi:10.1103/PhysRevLett.114.016405

Determination of the Nitrogen Vacancy as a Shallow Compensating Center in GaN Doped with Divalent Metals

J. Buckeridge, C. R.A. Catlow, D. O. Scanlon, T. W. Keal, P. Sherwood, M. Miskufova, A. Walsh, S. M. Woodley, A. A. Sokol

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79 Citations (Scopus)

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.

Original language	English
Article number	016405
Pages (from-to)	016405
Journal	PRL
Volume	114
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.114.016405 https://doi.org/10.1103/PhysRevLett.114.016405
Publication status	Published - 7 Jan 2015
Externally published	Yes

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Publisher Copyright:
© 2015 Published by American Physical Society.

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Buckeridge, J., Catlow, C. R. A., Scanlon, D. O., Keal, T. W., Sherwood, P., Miskufova, M., Walsh, A., Woodley, S. M., & Sokol, A. A. (2015). Determination of the Nitrogen Vacancy as a Shallow Compensating Center in GaN Doped with Divalent Metals. PRL, 114(1), 016405. Article 016405. https://doi.org/10.1103/PhysRevLett.114.016405, https://doi.org/10.1103/PhysRevLett.114.016405

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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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AU - Buckeridge, J.

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AU - Scanlon, D. O.

AU - Keal, T. W.

AU - Sherwood, P.

AU - Miskufova, M.

AU - Walsh, A.

AU - Woodley, S. M.

AU - Sokol, A. A.

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AB - 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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Determination of the Nitrogen Vacancy as a Shallow Compensating Center in GaN Doped with Divalent Metals

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