An energy-band modulated p-GaN/InGaN/AlN p-channel MESFET with high <i>ION</i>/<i>IOFF</i> ratio and steep subthreshold swing

Su, Huake; Zhang, Tao; Xu, Shengrui; Tao, Hongchang; Gao, Yuan; Liu, Xu; Xie, Lei; Xiang, Peng; Cheng, Kai; Hao, Yue; Zhang, Jincheng

doi:10.1063/5.0187064

Applied Physics Letters

2024

DOI: 10.1063/5.0187064

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An energy-band modulated p-GaN/InGaN/AlN p-channel MESFET with high ION/IOFF ratio and steep subthreshold swing

Huake Su,

Tao Zhang,

Shengrui Xu

et al.

Abstract: In this work, we report on the high-performance p-GaN/InGaN/AlN multi-heterostructure p-channel metal–semiconductor field effect transistors (MESFETs) with energy-band modulated quantum well-like InGaN channel and low work function metal tungsten (W) as the gate material. A negative threshold voltage (VTH) of −0.35 V is achieved by precisely controlling the self-aligned etching depth at the active region. Benefiting from the enhanced hole confinement, the ION/IOFF ratio and subthreshold swing of the fabricated… Show more

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Cited by 3 publications

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Hole transport mechanism at high temperatures in p-GaN/AlGaN/GaN heterostructure

Sikder,

Hossain,

Xie

et al. 2024

Applied Physics Letters

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This Letter reports an investigation of hole transport in p-GaN/AlGaN/GaN heterostructures through experimental and theoretical analyses under varied conditions. Highly non-linear current–voltage (I–V) characteristics, obtained via the linear transmission line method measurements, are utilized for this study. At low bias voltage, the transport can be ascribed to the Schottky nature of the contact, while at high bias, the conduction is observed to be governed by space-charge limited current (SCLC). The Schottky characteristics (Schottky barrier height and non-ideality factor) and the SCLC exponent were analyzed for devices with varying contact spacings and at different high temperatures. The SCLC exponent, m, is in the range of 2≤m≤4 depending on the applied voltage range, revealing the existence of the trap states in the channel region. The findings of this work indicate that the charge injection, field-induced ionization, and trap states in the p-GaN channel are critical factors in the current transport of p-GaN/AlGaN/GaN heterostructure.

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Hole transport mechanism at high temperatures in p-GaN/AlGaN/GaN heterostructure

Sikder,

Hossain,

Xie

et al. 2024

Applied Physics Letters

View full text Add to dashboard Cite

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High mobility p-channel GaN heterostructures grown by MOCVD through impurity engineering

Wu,

Yang,

Song

et al. 2024

Applied Physics Letters

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The p-GaN/AlGaN/GaN heterostructures with integrated n-channel and p-channel have been extensively applied in p-channel field effect transistor (p-FET) devices and complementary (CMOS) logic circuits. However, the hole mobility of the p-channel is still low, especially in the heterostructures grown by metalorganic chemical vapor deposition (MOCVD). In this work, an impurity engineering was designed by introducing Ga vacancies in the p-channel, so that the diffused Mg impurity could substitute the Ga site and form MgGa−1 rather than Mginter+2. The charged impurity scattering was hence suppressed due to the reduction of the impurity charge. As a result, the GaN heterostructure with a hole mobility of 21.8 cm2/V·s with a sheet hole density of 1.02 × 1013/cm2 was realized at room temperature by MOCVD. This work paves a way for improving the transport properties of GaN heterostructures and lays a foundation of high performance GaN-based p-FET devices and CMOS logic circuits on Si substrates.

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TCAD Simulation of an E-Mode Heterojunction Bipolar p-FET with Imax > 240 mA/mm

Zhang,

Ge,

et al. 2024

Electronics

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This work demonstrates an enhancement mode heterojunction bipolar p-FET (HEB-PFET) structure with a AlGaN/GaN heterojunction bipolar transistor (HBT) integrated on the drain side. Such device design notably contributes to the ultra-high output current density, which is conventionally limited by the low hole mobility and concentration in the p-FETs. The HEB-PFET exhibits an output current density of 241 mA/mm, which is 134 times larger compared to the conventional p-FET (C-PFET) and 2.4 times of the homojunction bipolar p-FET (HOB-PFET). This can be attributed to a better current gain of HBT than homojunction bipolar transistor (BJT). An optimized HEB-PFET of 6 nm p-GaN layer beneath the gate is proposed, where ION/IOFF is >1011, and Vth is −0.44 V. Additionally, thermal stabilities are studied with temperature changes from 300 K to 425 K. Moreover, a semi-empirical compact model is presented to visually explain the working principle of the HEB-PFET.

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An energy-band modulated p-GaN/InGaN/AlN p-channel MESFET with high ION/IOFF ratio and steep subthreshold swing

Cited by 3 publications

References 24 publications

Hole transport mechanism at high temperatures in p-GaN/AlGaN/GaN heterostructure

Hole transport mechanism at high temperatures in p-GaN/AlGaN/GaN heterostructure

High mobility p-channel GaN heterostructures grown by MOCVD through impurity engineering

TCAD Simulation of an E-Mode Heterojunction Bipolar p-FET with Imax > 240 mA/mm

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