Process engineering of GaN power devices via selective-area p-type doping with ion implantation and ultra-high-pressure annealing
Autor: | Tetsu Kachi, Tetsuo Narita, Hideki Sakurai, Maciej Matys, Keita Kataoka, Kazufumi Hirukawa, Kensuke Sumida, Masahiro Horita, Nobuyuki Ikarashi, Kacper Sierakowski, Michal Bockowski, Jun Suda |
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Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Journal of Applied Physics. 132:130901 |
ISSN: | 1089-7550 0021-8979 |
Popis: | P-type doping in selected areas of gallium nitride (GaN) using magnesium (Mg)-ion implantation and subsequent ultra-high-pressure annealing (UHPA) are investigated to improve the performance of vertical GaN power devices. UHPA allows a high-temperature process without decomposition of the GaN surface and virtually complete activation of the implanted Mg ions in GaN. In the present paper, we provide an overview of recent challenges in making UHPA more realistic as an industrial process. Instead of UHPA at more than 1400 °C for a short duration, prolonged UHPA at 1300 °C demonstrates a comparable acceptor activation of Mg-ion-implanted GaN. This can reduce the annealing pressure to approximately 300 MPa and enlarge the processable wafer diameter. The second challenge is controlling the doping profiles in the lateral and vertical directions. We demonstrate fine patterning of the p-type regions, which indicates the limited lateral diffusion of Mg through UHPA. However, controlling the vertical doping profile is challenging. The nitrogen vacancies formed by ion implantation reduce the effective acceptor concentration near the surface, which can be compensated for by sequential nitrogen ion implantation. Defect-assisted Mg diffusion to the deeper region causes a redistribution of the Mg atoms and should be considered in the design of a device. Such anisotropic diffusion of Mg to the c-axis has potential applications in the fabrication of unique vertical device structures such as super junctions. |
Databáze: | OpenAIRE |
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