DocumentCode
1027423
Title
Double-Recessed High-Frequency AlInGaN/InGaN/GaN Metal–Oxide Double Heterostructure Field-Effect Transistors
Author
Adivarahan, Vinod ; Gaevski, Mikhail E. ; Islam, MD Monirul ; Zhang, Bin ; Deng, Yanqing ; Khan, M. Asif
Author_Institution
Univ. of South Carolina, Columbia
Volume
55
Issue
2
fYear
2008
Firstpage
495
Lastpage
499
Abstract
We demonstrate a low-threshold AlInGaN/InGaN/GaN metal-oxide semiconductor double heterostructure field-effect transistor (MOS-DHFET) for high-frequency operation. A combination of an InGaN channel (for carrier confinement), a DRE process, and a new digital-oxide-deposition technique helped us to achieve MOS-DHFET devices with extremely low subthreshold leakage currents. This reduction in output conductance (short channel effect) resulted in a high cutoff gain frequency fT of about 65 GHz and a current gain frequency f max of 94 GHz. The devices exhibited high drain-currents of 1.3 A/mm and delivered RF powers of 3.1 W/mm at 26 GHz with a 35 V drain bias.
Keywords
III-V semiconductors; MOSFET; aluminium compounds; gallium compounds; indium compounds; microwave field effect transistors; millimetre wave field effect transistors; AlInGaN-InGaN-GaN; DRE process; MOS-DHFET devices; carrier confinement; current gain frequency; cutoff gain frequency; digital-oxide-deposition technique; double-recessed high-frequency field-effect transistors; frequency 26 GHz; frequency 94 GHz; metal-oxide double heterostructure field-effect transistors; subthreshold leakage currents; voltage 35 V; Aluminum gallium nitride; Cutoff frequency; Electrons; Gallium nitride; HEMTs; Heterojunctions; Insulation; Leakage current; MODFETs; Photoluminescence; AlGaN; digital–oxide-deposition (DOD); digital--oxide-deposition (DOD); double recess; metal–oxide double heterostructure field effect transistors (MOS-DHFET); metal--oxide double heterostructure field effect transistors (MOS-DHFET); subthreshold;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2007.913001
Filename
4420108
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