Multicycle rapid thermal annealing technique and its application for the electrical activation of Mg implanted in GaN

Article ID	Journal	Published Year	Pages	File Type
8152332	Journal of Crystal Growth	2012	6 Pages	PDF

Abstract

No reliable results were reported up-to-date on electrical activation of Mg implanted GaN without co-doping with other ions. The main reason of the poor ion-implanted activation in GaN is lack of the adequate GaN annealing technique. We have developed a new approach, Multicycle Rapid Thermal Annealing to overcome this limitation and enable longer annealing times at high temperature. We have applied this new technique to Mg-implanted GaN, and demonstrated p-type conductivity.

Keywords

A3. Chemical vapor deposition processes B1. GaN B1. Nitrides

Related Topics

Physical Sciences and Engineering Physics and Astronomy Condensed Matter Physics

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Multicycle rapid thermal annealing technique and its application for the electrical activation of Mg implanted in GaN

Authors

B.N. Feigelson, T.J. Anderson, M. Abraham, J.A. Freitas, J.K. Hite, C.R. Eddy, F.J. Kub,