Journal article Electrical activity of Mg clustering at nanoscale defects induced by N ion implantation in GaN
Kosuke Ishikawa (author) (Search by this author)
;
Emi Kano (author) (Search by this author)
ORCID ; ORCID SAMURAI ;
Kensuke Sumida (author) (Search by this author)
;
Tetsuo Narita (author) (Search by this author)
ORCID ;
Masahiro Horita (author) (Search by this author)
ORCID ;
Junya Sahashi (author) (Search by this author)
;
Shun Lu (author) (Search by this author)
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Jun Suda (author) (Search by this author)
ORCID ; ORCID SAMURAI ;
Tetsu Kachi (author) (Search by this author)
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Nobuyuki Ikarashi (author) (Search by this author)
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Citation
Kosuke Ishikawa, Emi Kano, Jun Uzuhashi, Kensuke Sumida, Tetsuo Narita, Masahiro Horita, Junya Sahashi, Shun Lu, Jun Suda, Tadakatsu Ohkubo, Tetsu Kachi, Nobuyuki Ikarashi. Electrical activity of Mg clustering at nanoscale defects induced by N ion implantation in GaN. Applied Physics Letters. 2026, 128 (25), 252102. https://doi.org/10.1063/5.0335166

Description:

(abstract)

The p-type doping of GaN using Mg ion implantation remains a critical challenge in the development of GaN power devices. Herein, we demonstrate that Mg clustering, induced by sequential N ion implantation, impacts acceptor concentration (Na), compensating donor concentration (Nd), and acceptor activation energy (ΔEa). N was implanted at the same concentration as Mg to suppress Mg diffusion. Hall-effect measurements indicated that, for Mg doses above 1×1019 cm−3, Na reached a plateau whereas Nd continued to increase. Consequently, the net acceptor concentration (Na − Nd) reached a maximum of 4×1018 cm−3 at a Mg dose of 1×1019 cm−3. ΔEa decreased with increasing Mg dose. Atomic-resolution structural analyses revealed that nanoscale defects generated by N implantation induced Mg clustering around these defects, with the cluster density increasing with Mg dose. Notably, peak Mg concentrations within these clusters exceeded 1×1021 cm−3 and increased with Mg dose, whereas Mg atoms outside these clusters remained uniformly dispersed in the range 1.3−1.5×1018 cm−3 regardless of Mg dose. These findings suggest that the increase in Na up to a Mg dose of 1×1019 cm−3 can be attributed to the Mg atoms within these Mg-rich clusters acting as acceptors, which also lowered ΔEa. Conversely, Mg atoms at or near the peak Mg-concentration sites likely acted as compensating donors, contributing to the increase in Nd with increasing Mg dose. These findings elucidate the impact of Mg clustering induced by nanoscale implantation defects on the p-type conductivity of GaN, providing insight for improving ion-implantation doping strategies in GaN.

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  • In Copyright

    This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Kosuke Ishikawa, Emi Kano, Jun Uzuhashi, Kensuke Sumida, Tetsuo Narita, Masahiro Horita, Junya Sahashi, Shun Lu, Jun Suda, Tadakatsu Ohkubo, Tetsu Kachi, Nobuyuki Ikarashi; Electrical activity of Mg clustering at nanoscale defects induced by N ion implantation in GaN. Appl. Phys. Lett. 22 June 2026; 128 (25): 252102 and may be found at https://doi.org/10.1063/5.0335166.

Keyword: gallium nitride, atom probe tomography

Date published: 2026-06-22

Publisher: AIP Publishing

Journal:

  • Applied Physics Letters (ISSN: 00036951) vol. 128 issue. 25 252102

Funding:

  • Ministry of Education, Culture, Sports, Science and Technology JPJ009777

Manuscript type: Author's version (Accepted manuscript)

MDR DOI: https://doi.org/10.48505/nims.6368

First published URL: https://doi.org/10.1063/5.0335166

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Updated at: 2026-06-25 09:46:49 +0900

Published on MDR: 2026-06-25 12:26:56 +0900