Al<sub>0.64</sub>Ga<sub>0.36</sub>N channel MOSHFET on single crystal bulk AlN substrate
Abdullah Mamun, Kamal Hussain, Richard Floyd, Md. Didarul Alam, M. V. S. Chandrashekhar, G. Simin, Asif Khan
Abstract
Abstract We report MOCVD-grown Al 0.87 Ga 0.13 N/Al 0.64 Ga 0.36 N metal-oxide-semiconductor-heterojunction-field-effect-transistors on single crystal bulk AlN substrate. As compared to control devices on AlN template, thermal impedance for devices on single crystal AlN decreased to 1/3 from 31 to 10 K mm W −1 , comparable to SiC and copper heat-sinks. This represents a significant thermo-electric co-design advantage over other semiconductors. As a result, the peak drain saturation current increased from 410 to 610 mAmm −1 . A 3-terminal breakdown field of 3.7 MV cm −1 was measured, which to date represents state-of-the-art performance for devices with similar Al x Ga 1− x N-channel composition. This translates to a measured Baliga figure of merit of 460 MWcm −2 .