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This work demonstrates multi-channel AlGaN/GaN Schottky barrier diodes (SBDs) with a breakdown voltage (BV) over 10 kV, the highest BV reported in GaN devices to date. The epitaxial structure consists of a p-GaN cap layer and five AlGaN/GaN channels continuously grown on a low-cost 4-inch sapphire substrate. A novel device design is proposed for electric field management, i. e. , the p-GaN reduced surface field (RESURF) structure, which balances the net charges in the multi-channel at reverse biases. The SBD with a 98- μm anode-to-cathode length (L AC) shows a BV of 9. 15 kV and a specific on-resistance (R ON) of 29. 5 mΩ·cm 2, rendering a Baliga's figure of merit (FOM) of 2. 84 GW/cm 2. The SBD with a 123- μm L AC shows a BV over 10 kV and a R ON of 39 mΩ·cm 2, which is 2. 5-fold lower than the R ON of the state-of-the-art 10-kV SiC junction barrier Schottky diodes. The Baliga's FOMs of our 4. 6-10 kV GaN SBDs well exceed the SiC unipolar limit. These results show the great promise of GaN for medium- and high-voltage power electronics.
Xiao et al. (Fri,) studied this question.