We demonstrate high p-type conductivity and hole concentrations >1018 cm−3 in Mg-implanted GaN. The implantation was performed at room temperature and by post-implantation annealing at 1 GPa of N2 and in a temperature range of 1200–1400 °C. The high pressure thermodynamically stabilized the GaN surface without the need of a capping layer. We introduce a “diffusion budget,” related to the diffusion length, as a convenient engineering parameter for comparing samples annealed at different temperatures and for different times. Although damage recovery, as measured by XRD, was achieved at relatively low diffusion budgets, these samples did not show p-type conductivity. Further analyses showed heavy compensation by the implantation-induced defects. Higher diffusion budgets resulted in a low Mg ionization energy (∼115 meV) and almost complete Mg activation. For even higher diffusion budgets, we observed significant loss of Mg to the surface and a commensurate reduction in the hole conductivity. High compensation at low diffusion budgets and loss of Mg at high diffusion budgets present a unique challenge for shallow implants. A direct control of the formation of compensating defects arising from the implantation damage may be necessary to achieve both hole conductivity and low Mg diffusion.
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11 January 2021
Research Article|
January 12 2021
High Mg activation in implanted GaN by high temperature and ultrahigh pressure annealing
M. Hayden Breckenridge
;
M. Hayden Breckenridge
a)
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
a)Author to whom correspondence should be addressed: mhbrecke@ncsu.edu
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James Tweedie;
James Tweedie
2
Adroit Materials, Inc
., 2054 Kildaire Farm Rd., Cary, North Carolina 27518, USA
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Pramod Reddy
;
Pramod Reddy
2
Adroit Materials, Inc
., 2054 Kildaire Farm Rd., Cary, North Carolina 27518, USA
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Yan Guan;
Yan Guan
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
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Pegah Bagheri
;
Pegah Bagheri
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
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Dennis Szymanski
;
Dennis Szymanski
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
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Seiji Mita;
Seiji Mita
2
Adroit Materials, Inc
., 2054 Kildaire Farm Rd., Cary, North Carolina 27518, USA
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Kacper Sierakowski;
Kacper Sierakowski
3
Institute of High-Pressure Physics, Polish Academy of Sciences
, Sokołowska 29/37, 01-142 Warsaw, Poland
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Michał Boćkowski
;
Michał Boćkowski
3
Institute of High-Pressure Physics, Polish Academy of Sciences
, Sokołowska 29/37, 01-142 Warsaw, Poland
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Ramon Collazo;
Ramon Collazo
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
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Zlatko Sitar
Zlatko Sitar
1
Department of Materials Science and Engineering, North Carolina State University
, Raleigh, North Carolina 27695-7919, USA
2
Adroit Materials, Inc
., 2054 Kildaire Farm Rd., Cary, North Carolina 27518, USA
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a)Author to whom correspondence should be addressed: mhbrecke@ncsu.edu
Appl. Phys. Lett. 118, 022101 (2021)
Article history
Received:
November 24 2020
Accepted:
December 24 2020
Citation
M. Hayden Breckenridge, James Tweedie, Pramod Reddy, Yan Guan, Pegah Bagheri, Dennis Szymanski, Seiji Mita, Kacper Sierakowski, Michał Boćkowski, Ramon Collazo, Zlatko Sitar; High Mg activation in implanted GaN by high temperature and ultrahigh pressure annealing. Appl. Phys. Lett. 11 January 2021; 118 (2): 022101. https://doi.org/10.1063/5.0038628
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