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Effect of Dielectric Engineering on Analog and Linearity performance of Gate Electrode Workfunction Engineered (GEWE) Silicon Nanowire MOSFET

机译：介质工程对栅电极工作功能模拟和线性性能的影响设计（Gewe）硅纳米线MOSFET

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摘要

This work demonstrates that with the incorporation of gate stack (GS) on GEWE-SiNW MOSFET, the analog and linearity performance of the device enhances in terms of transconductance, output conductance and device efficiency. The important Linearity figure of merits (FOMs) such as second order voltage intercept point (VIP2), third order voltage intercept point (VIP3), third order input intercept point (IIP3), third order intermodulation distortion (IMD3) and 1-dB compression point are studied with the help of 3D ATLAS and DEVEDIT device simulator for low power linear CMOS devices. Moreover, it has been observed that the zero-cross over point for GS-GEWE-SiNW MOSFET is reduced appreciably compared to its counterparts, which results into lowered optimum bias point for device operation.

机译：这项工作表明，通过在Gewe-Sinw MOSFET上加入栅极堆叠（GS），该器件的模拟和线性性能在跨导，输出电导和器件效率方面增强。诸如二阶电压截距点（VIP2），三阶电压截距点（VIP3），三阶输入截距（IIP3），三阶互调失真（IMD3）和1-DB压缩的优点（FOM）的重要线性度数借助用于低功耗线性CMOS器件的3D Atlas和Devedit设备模拟器的帮助，研究了点。此外，已经观察到，与其对应物相比，GS-Gewe-Sinw MOSFET的零交叉表明显降低，这导致用于器件操作的最佳偏置点。

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《IEEE International Conference on Nanotechnology》|2015年||共4页
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作者
Neha Gupta; Ajay Kumar; Rishu Chaujar;
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中图分类 TB383-53;
关键词
Gate Electrode Workfunction Engineering; Quantum Mechanical Model; Linearity; RF Distortion; Silicon Nanowire;

机译：栅电极工作障碍工程;量子机械模型;线性;射频失真;硅纳米线;

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专利

1. Impact of device parameter variation on RF performance of gate electrode workfunction engineered (GEWE)-silicon nanowire (SiNW) MOSFET [J] . Gupta Neha, Kumar Ajay, Chaujar Rishu Journal of Computational Electronics . 2015,第3期

机译：器件参数变化对栅电极功函数工程（GEWE）-硅纳米线（SiNW）MOSFET射频性能的影响
2. Impact of device parameter variation on RF performance of gate electrode workfunction engineered (GEWE)-silicon nanowire (SiNW) MOSFET [J] . Neha Gupta, Ajay Kumar, Rishu Chaujar Journal of Computational Electronics . 2015,第3期

机译：器件参数变化对栅电极功函数工程（GEWE）-硅纳米线（SiNW）MOSFET射频性能的影响
3. TCAD assessment of Gate Electrode Workfunction Engineered Recessed Channel (GEWE-RC) MOSFET and its multi-layered gate architecture, Part II: Analog and large signal performance evaluation [J] . Rishu Chaujar, Ravneet Kaur, Manoj Saxena, Superlattices and microstructures . 2009,第4期

机译：栅极电极功函数工程嵌入式通道（GEWE-RC）MOSFET及其多层栅极架构的TCAD评估，第二部分：模拟和大信号性能评估
4. Effect of dielectric engineering on analog and linearity performance of gate electrode workfunction engineered (GEWE) silicon nanowire MOSFET [C] . Neha Gupta, Ajay Kumar, Rishu Chaujar IEEE International Conference on Nanotechnology . 2015

机译：介电工程对栅电极功函数工程（GEWE）硅纳米线MOSFET的模拟和线性性能的影响
5. Fabrication and performance of submicron gate length gallium arsenide-channel MOSFETs using indium aluminum phosphide oxide as the gate dielectric. [D] . Zhang, Jing. 2008

机译：使用磷化铟铝作为栅介质的亚微米栅长砷化镓沟道MOSFET的制备和性能。
6. Cryogenic Transport Characteristics of P-Type Gate-All-Around Silicon Nanowire MOSFETs [O] . Jie Gu, Qingzhu Zhang, Zhenhua Wu, 2021

机译：P型门 - 全面硅纳米线MOSFET的低温传输特性
7. Interface Engineering and Gate Dielectric Engineering for High Performance Ge MOSFETs [O] . Jiabao Sun, Jiwu Lu 2015

机译：高性能GE MOSFET接口工程与栅极介质工程

Effect of Dielectric Engineering on Analog and Linearity performance of Gate Electrode Workfunction Engineered (GEWE) Silicon Nanowire MOSFET

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