Study of Electrostatics and Transport Properties of Multigate Graded Nanowire Channel MOSFETs

机译：多栅极梯度纳米线沟道MOSFET的静电学和输运性能研究

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In this work, we have studied the electrostatics and ballistic transport characteristics of a multigate MOSFET structure with axially composition graded InGaAs channel. Wave-function penetration and other quantum mechanical effects were considered, along with the effects of strain on the graded heterojunction. Schroedinger and Poisson's equations were solved numerically using FEM method. Furthermore, we have studied effects of doping and depth variation of the graded layers on the threshold voltage and inversion gate capacitance of the device. The transport performance parameters extracted from the simulation revealed excellent on and off state transport performance of the graded device with an on-off current ratio of 10~7, Drain Induced Barrier Lowering of 43.79 mV/V, Subthreshold Swing of 61.37 mV/dec.

机译：在这项工作中，我们研究了轴向组成渐变的InGaAs沟道的多栅极MOSFET结构的静电和弹道传输特性。考虑了波函数穿透和其他量子力学效应，以及应变对梯度异质结的影响。使用有限元方法对Schroedinger和Poisson方程进行数值求解。此外，我们研究了梯度层的掺杂和深度变化对器件的阈值电压和反型栅极电容的影响。从仿真中提取的传输性能参数显示了该梯度器件的出色的开/关状态传输性能，其开/关电流比为10〜7，漏极引起的势垒降低为43.79 mV / V，亚阈值摆幅为61.37 mV / dec。

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来源
《Silicon compatible materials, processes, and technologies for advanced integrated circuits and emerging applications 6》|2016年|325-333|共9页
会议地点 San Diego(US)
作者
Quazi D. M. Khosru; Saeed Uz Zaman Khan; Kanak Datta;
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Department of Electrical and Electronic Engineering Bangladesh University of Engineering and Technology, Dhaka-1205, Bangladesh;

Department of Electrical and Electronic Engineering Bangladesh University of Engineering and Technology, Dhaka-1205, Bangladesh;

Department of Electrical and Electronic Engineering Bangladesh University of Engineering and Technology, Dhaka-1205, Bangladesh;

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1. Influence of Elastic and Inelastic Electron–Phonon Interaction on Quantum Transport in Multigate Silicon Nanowire MOSFETs [J] . Akhavan N. D., Afzalian A., Kranti A., Electron Devices, IEEE Transactions on . 2011,第4期

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2. A comparison of modeling approaches for current transport in polysilicon-channel nanowire and macaroni GAA MOSFETs [J] . Mannara Aurelio, Malavena Gerardo, Sottocornola Spinelli Alessandro, Journal of Computational Electronics . 2021,第1期

机译：多晶硅通道纳米线和通心粉Gaa MOSFET中电流运输建模方法的比较
3. Surface Potential-Based Analytical Modeling of Electrostatic and Transport Phenomena of GaN Nanowire Junctionless MOSFET [J] . Khan Md. Irfan, Rahman I. K. M. Reaz, Khosru Quazi D. M. IEEE Transactions on Electron Devices . 2020,第9期

机译：基于表面电位的GaN纳米线连接MSFET静电和运输现象的分析模型
4. Study of Electrostatics and Transport Properties of Multigate Graded Nanowire Channel MOSFETs [C] . Quazi D. M. Khosru, Saeed Uz Zaman Khan, Kanak Datta Meeting of The Electrochemical Society . 2016

机译：多相级纳米线通道MOSFET的静电和运输性能研究
5. Lattice Boltzmann simulations of two-phase flow in a microchannel model and colloids transport with a study of electrostatic force for nanoparticles. [D] . Shi, Xiaoyan. 2016

机译：对微通道模型中两相流和胶体传输的莱迪思·博尔兹曼模拟，并研究了纳米粒子的静电力。
6. Sensing and Reliability Improvement of Electrostatic-Discharge Transient by Discrete Engineering for High-Voltage 60-V n-Channel Lateral-Diffused MOSFETs with Embedded Silicon-Controlled Rectifiers [O] . Shen-Li Chen, Yi-Cih Wu 2018

机译：分立工程用于嵌入式硅控整流器的高压60V n沟道横向扩散MOSFET的瞬态传感和可靠性改善。
7. A comparison of modeling approaches for current transport in polysilicon-channel nanowire and macaroni GAA MOSFETs [O] . Aurelio Mannara, Gerardo Malavena, Alessandro Sottocornola Spinelli, 2020

机译：多晶硅通道纳米线和通心粉Gaa MOSFET中电流运输建模方法的比较

Study of Electrostatics and Transport Properties of Multigate Graded Nanowire Channel MOSFETs

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