Enhancement-Mode AlN/GaN HFETs Using Cat-CVD SiN

Enhancement-Mode AlN/GaN HFETs Using Cat-CVD SiN

High-performance enhancement-mode (E-mode) AIN (2.5 nm)/GaN heterostructure field-effect transistors (HFETs) were fabricated with a novel method using SiN passivation by catalytic chemical vapor deposition (Cat-CVD). We found that the formation of a 2-D electron gas (2DEG) in the AIN/GaN heterostruc...

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Veröffentlicht in:IEEE transactions on electron devices 2007-06, Vol.54 (6), p.1566-1570
Hauptverfasser: Higashiwaki, M., Mimura, T., Matsui, T.
Format: Artikel
Sprache:eng
Schlagworte:
AlN
Aluminum nitride
Applied sciences
Barrier layers
catalytic chemical vapor deposition (Cat-CVD)
Compound structure devices
current-gain cutoff frequency (f_{T})
Density
Deposition
Devices
Electronics
enhancement-mode (E-mode)
Etching
Exact sciences and technology
Gallium nitride
Gallium nitrides
GaN
HEMTs
heterostructure field-effect transistor (HFET)
Heterostructures
Logic gates
maximum oscillation frequency (f_{\max})
Microelectronic fabrication (materials and surfaces technology)
MODFETs
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Silicon compounds
Surface treatment
Threshold voltage
Transistors
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Zusammenfassung:High-performance enhancement-mode (E-mode) AIN (2.5 nm)/GaN heterostructure field-effect transistors (HFETs) were fabricated with a novel method using SiN passivation by catalytic chemical vapor deposition (Cat-CVD). We found that the formation of a 2-D electron gas (2DEG) in the AIN/GaN heterostructure can be controlled by the presence of the Cat-CVD SiN on the barrier layer. Before SiN deposition, the 2DEG at the AIN/GaN heterointerface was completely depleted because of the extremely thin barrier layer. On the other hand, after SiN deposition, the decrease in AIN surface barrier height induced a high-density 2DEG. The E-mode HFETs with gate lengths of 100-180 nm and threshold voltages from +0.14 to +0.55 V showed a maximum drain-current density of 0.70-0.92 A/mm and a maximum extrinsic transconductance of 362-400 mS/mm. A current-gain cutoff frequency of 87 GHz and maximum oscillation frequency of 149 GHz were obtained for the 100-nm-gate devices.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2007.896607