The 67th JSAP Spring Meeting 2020

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Joint Session K "Wide bandgap oxide semiconductor materials and devices" » 21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"

[12p-D419-1~15] 21.1 Joint Session K "Wide bandgap oxide semiconductor materials and devices"

Thu. Mar 12, 2020 1:45 PM - 5:45 PM D419 (11-419)

Takayoshi Oshima(FLOSFIA), Masataka Higashiwaki(NICT)

5:30 PM - 5:45 PM

[12p-D419-15] High current (0.78 A/mm) and high voltage (618 V) operation of NO2-doped diamond MOSFETs

〇(D)Niloy Chandra Saha1, Y. Kawamata2, K. Koyama2, S. -W. Kim2, T. Oishi1, M. Kasu1 (1.Saga Univ., 2.Adamant Namiki Precision Jewel Co., Ltd.)

Keywords:heteroepitaxial diamond, Diamond MOSFET, NO2 doping

Diamond has excellent physical properties, such as the high breakdown field and high thermal conductivity over SiC and GaN. NO2 p-type doping reached a sheet concentration up to ~1´1014 cm-2 and Al2O3 passivation stabilized hole channel, which also serves as gate insulating layer. Using these technologies, diamond MOSFET with gate length, Lg= 0.4 µm was demonstrated with a high drain current of 1.3 A/mm. In this study, we fabricated diamond MOSFET, and a high drain current of 776 mA/mm and a high breakdown voltage of 618 V are obtained with Lg=1.4 µm.