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AlGaN/GaN on SiC Devices without a GaN Buffer Layer: Electrical and Noise Characteristics

Justinas Jorudas, Artūr Šimukovič, Maksym Dub, M. Sakowicz, P. Prystawko, Simonas Indrišiūnas, Vitalij Kovalevskij, Sergey Rumyantsev, W. Knap, Irmantas Kašalynas

2020Micromachines23 citationsDOIOpen Access PDF

Abstract

We report on the high-voltage, noise, and radio frequency (RF) performances of aluminium gallium nitride/gallium nitride (AlGaN/GaN) on silicon carbide (SiC) devices without any GaN buffer. Such a GaN–SiC hybrid material was developed in order to improve thermal management and to reduce trapping effects. Fabricated Schottky barrier diodes (SBDs) demonstrated an ideality factor n at approximately 1.7 and breakdown voltages (fields) up to 780 V (approximately 0.8 MV/cm). Hall measurements revealed a thermally stable electron density at N2DEG = 1 × 1013 cm−2 of two-dimensional electron gas in the range of 77–300 K, with mobilities μ = 1.7 × 103 cm2/V∙s and μ = 1.0 × 104 cm2/V∙s at 300 K and 77 K, respectively. The maximum drain current and the transconductance were demonstrated to be as high as 0.5 A/mm and 150 mS/mm, respectively, for the transistors with gate length LG = 5 μm. Low-frequency noise measurements demonstrated an effective trap density below 1019 cm−3 eV−1. RF analysis revealed fT and fmax values up to 1.3 GHz and 6.7 GHz, respectively, demonstrating figures of merit fT × LG up to 6.7 GHz × µm. These data further confirm the high potential of a GaN–SiC hybrid material for the development of thin high electron mobility transistors (HEMTs) and SBDs with improved thermal stability for high-frequency and high-power applications.

Topics & Concepts

Materials scienceOptoelectronicsTransconductanceHigh-electron-mobility transistorSilicon carbideGallium nitrideWide-bandgap semiconductorBreakdown voltageDiodeSchottky diodeTransistorLayer (electronics)VoltageElectrical engineeringNanotechnologyComposite materialEngineeringGaN-based semiconductor devices and materialsSemiconductor materials and devicesGa2O3 and related materials
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