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We report a novel process to achieve slanted field plate (S-FP), which is a field plate with a gradual increase thickness from gate edge towards drain - utilizing grayscale lithography on flowable oxide (FOX) in single process step, in which developed FOX works as field plate dielectric. GaN-on-Si MOSHEMTs are fabricated by this technique. The breakdown voltage shows a significantly improvement by S-FP as a result of more uniform electric field distribution in the drift region. The S-FP MOSHEMT exhibits outstanding performance with a breakdown voltage (V BR ) of 832 V ( L GD = 5μm, at 1 μA/mm), state-of-the-art ON-resistance (R ON ) of 4.5 Ω·mm, and high-power figure-of-merit (FOM = V BR 2 /R ON,SP ) of 1.24 GW/cm 2 . This approach using a simple and flexible process to engineer the electric field in the MOSHEMT, offering a powerful technology for future advances in GaN high power devices.
Elison de Nazareth Matioli, Alessandro Floriduz, Zheng Hao
Edoardo Charbon, Claudio Bruschini, Ekin Kizilkan, Pouyan Keshavarzian, Won Yong Ha, Francesco Gramuglia, Myung Jae Lee
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