Gate leakage current mechanisms in AlGaNÕGaN heterostructure field-effect transistors
نویسندگان
چکیده
Gate leakage currents in AlGaN/GaN heterostructure field-effect transistor ~HFET! structures with conventional and polarization-enhanced barriers have been studied. Comparisons of extensive gate leakage current measurements with two-dimensional simulations show that vertical tunneling is the dominant mechanism for gate leakage current in the standard-barrier HFET and that the enhanced-barrier structure suppresses this mechanism in order to achieve a reduced leakage current. An analytical model of vertical tunneling in a reverse-biased HFET gate-drain diode is developed to evaluate the plausibility of this conclusion. The model can be fit to the measured data, but suggests that additional leakage mechanisms such as lateral tunneling from the edge of the gate to the drain or defect-assisted tunneling also contribute to the total leakage current. The vertical tunneling current mechanism is shown to be more significant to the gate leakage current in III–V nitride HFETs than in HFETs fabricated in other III–V material systems, in which the lateral tunneling current component generally dominates the gate leakage current. © 2000 American Institute of Physics. @S0021-8979~00!04523-0#
منابع مشابه
Band bending engineering in p-i-n gate all around Carbon nanotube field effect transistors by multi-segment gate
The p-i-n carbon nanotube (CNT) devices suffer from low ON/OFF current ratio and small saturation current. In this paper by band bending engineering, we improved the device performance of p-i-n CNT field effect transistors (CNTFET). A triple gate all around structure is proposed to manage the carrier transport along the channel. We called this structure multi-segment gate (MSG) CNTFET. Band to ...
متن کاملBand bending engineering in p-i-n gate all around Carbon nanotube field effect transistors by multi-segment gate
The p-i-n carbon nanotube (CNT) devices suffer from low ON/OFF current ratio and small saturation current. In this paper by band bending engineering, we improved the device performance of p-i-n CNT field effect transistors (CNTFET). A triple gate all around structure is proposed to manage the carrier transport along the channel. We called this structure multi-segment gate (MSG) CNTFET. Band to ...
متن کاملAnalysis and study of geometrical variability on the performance of junctionless tunneling field effect transistors: Advantage or deficiency?
This study investigates geometrical variability on the sensitivity of the junctionless tunneling field effect transistor (JLTFET) and Heterostructure JLTFET (HJLTFET) performance. We consider the transistor gate dielectric thickness as one of the main variation sources. The impacts of variations on the analog and digital performance of the devices are calculated by using computer aided design (...
متن کاملAnalysis and study of geometrical variability on the performance of junctionless tunneling field effect transistors: Advantage or deficiency?
This study investigates geometrical variability on the sensitivity of the junctionless tunneling field effect transistor (JLTFET) and Heterostructure JLTFET (HJLTFET) performance. We consider the transistor gate dielectric thickness as one of the main variation sources. The impacts of variations on the analog and digital performance of the devices are calculated by using computer aided design (...
متن کاملHigh-voltage field effect transistors with wide-bandgap -Ga2O3 nanomembranes
Articles you may be interested in Publisher's Note: " High-voltage field effect transistors with wide-bandgap-Ga2O3 nanomembranes " [Appl. Phys. Isotope disorder of phonons in GaN and its beneficial effect on high power field effect transistors Appl. Gate leakage effects and breakdown voltage in metalorganic vapor phase epitaxy AlGaN/GaN heterostructure field-effect transistors Appl. Two-channe...
متن کامل