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Review—Recent Advances in Designing Gallium Oxide MOSFET for RF Application

Narendra Yadava, R. K. Chauhan

2020ECS Journal of Solid State Science and Technology43 citationsDOIOpen Access PDF

Abstract

The large bandgap (∼4.8 eV), high critical field strength (∼8 MV cm −1 ) and high saturation velocity (∼2e7 cm s −1 ) are the key enabling material parameters of gallium oxide (GO) which allows it for designing high power radio frequency (RF) MOSFET. In MOS device-based applications, these material parameters combined with large area native substrates and ion-implantation technology results in exceptionally low ON-state power losses, high-speed power, RF switching, and more stable high-temperature operation. This paper comprehensively focuses on reviewing the latest progress of ultra-wide bandgap GO MOSFET for RF application. The performance of GO MOS devices is fully discussed and compared. Finally, potential solutions to the challenges of GO-based MOSFET for RF applications are also discussed and explored.

Topics & Concepts

Materials scienceMOSFETPower MOSFETOptoelectronicsRadio frequencyEngineering physicsPower semiconductor deviceBand gapGalliumRF power amplifierElectrical engineeringSaturation velocityElectronic engineeringTransistorVoltageEngineeringCMOSAmplifierMetallurgyGa2O3 and related materialsZnO doping and propertiesGaN-based semiconductor devices and materials