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A Multi-Method Simulation Toolbox to Study Performance and Variability of Nanowire FETs

机译：用于研究纳米线FET的性能和可变性的多方法仿真工具箱

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摘要

An in-house-built three-dimensional multi-method semi-classical/classical toolbox has been developed to characterise the performance, scalability, and variability of state-of-the-art semiconductor devices. To demonstrate capabilities of the toolbox, a 10 nm gate length Si gate-all-around field-effect transistor is selected as a benchmark device. The device exhibits an off-current (

I_{OFF}

) of

0.03

μ

μ

m, and an on-current (

I_{ON}

) of 1770

μ

μ

m, with the

I_{ON} / I_{OFF}

ratio

6.63 \times 10^{4}

, a value

27 %

larger than that of a

10.7

nm gate length Si FinFET. The device SS is 71 mV/dec, no far from the ideal limit of 60 mV/dec. The threshold voltage standard deviation due to statistical combination of four sources of variability (line- and gate-edge roughness, metal grain granularity, and random dopants) is

55.5

mV, a value noticeably larger than that of the equivalent FinFET (30 mV). Finally, using a fluctuation sensitivity map, we establish which regions of the device are the most sensitive to the line-edge roughness and the metal grain granularity variability effects. The on-current of the device is strongly affected by any line-edge roughness taking place near the source-gate junction or by metal grains localised between the middle of the gate and the proximity of the gate-source junction.

机译：已开发出内部构建的多维多方法半经典/经典工具箱，以表征最先进的半导体器件的性能，可伸缩性和可变性。为了演示工具箱的功能，选择了一个10 nm栅极长度的Si全方位栅场效应晶体管作为基准器件。设备显示出断流（

IOFF） 1998 / Math / MathML“ id =” mm2“溢出=” scroll“>0.03μ< / math> A / <数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm4”溢出=“ scroll”>μm，以及一个当前（scroll“> ION）<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm6”溢出=“ scroll”>μA / <数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ mm7” overflow =“ scroll”> < mrow>μm，并带有ION/IOFF比率6.63\times104，值27％大于id =“ mm11”溢出=“ scroll”> 10.7nm栅极长度Si FinFET。器件SS为71 mV / dec，与理想极限60 mV / dec相距不远。由于四个可变性来源（线边缘和栅极边缘的粗糙度，金属颗粒粒度和随机掺杂剂）的统计组合而导致的阈值电压标准偏差为

著录项

期刊名称 Materials
作者
Natalia Seoane; Daniel Nagy; Guillermo Indalecio; Gabriel Espiñeira; Karol Kalna; Antonio García-Loureiro;
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作者单位

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年(卷),期 2019(12),15
年度 2019
页码 2391
总页数 15
原文格式 PDF
正文语种
中图分类外科学;
关键词
nanowire field-effect transistors variability effects Monte Carlo Schrödinger based quantum corrections drift-diffusion;

机译：纳米线场效应晶体管;可变性效应;蒙特卡洛;基于薛定ding的量子校正;漂移扩散;

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专利

1. Study of Discrete Doping-Induced Variability in Junctionless Nanowire MOSFETs Using Dissipative Quantum Transport Simulations [J] . Aldegunde M., Martinez A., Barker J. R. Electron Device Letters, IEEE . 2012,第2期

机译：使用耗散量子传输模拟研究无结纳米线MOSFET中离散掺杂引起的变异性
2. Physics and performances of III-V nanowire broken-gap heterojunction TFETs using an efficient tight-binding mode-space NEGF model enabling million-atom nanowire simulations [J] . Afzalian A., Vasen T., Ramvall P., Journal of Physics. Condensed Matter . 2018,第25期

机译：使用有效的紧密绑定模式 - 空间NegF模型的III-V纳米线破裂差距异质结TFET的物理学和性能，使百万原子纳米线模拟
3. Physics and performances of III-V nanowire broken-gap heterojunction TFETs using an efficient tight-binding mode-space NEGF model enabling million-atom nanowire simulations [J] . Afzalian A., Vasen T., Ramvall P., Journal of Physics. Condensed Matter . 2018,第25期

机译：使用有效的紧密绑定模式 - 空间NegF模型的III-V纳米线破裂差距异质结TFET的物理学和性能，使百万原子纳米线模拟
4. A simulation study of strain induced performance enhancements in InAs nanowire Tunnel-FETs [C] . Conzatti F., Pala M.G., Esseni D., 2011 IEEE International Electron Devices Meeting . 2011

机译：InAs纳米线隧道FET中应变引起的性能增强的仿真研究
5. Simulation and comparison of 3C-SiC, 6H-SiC and 4H-SiC nanowire fets performance. [D] . Hasan, Rajib Ul. 2015

机译：模拟和比较3C-SiC，6H-SiC和4H-SiC纳米线的性能。
6. In situ simulation versus off site simulation in obstetric emergencies and their effect on knowledge safety attitudes team performance stress and motivation: study protocol for a randomized controlled trial [O] . Jette Led Sørensen, Cees Van der Vleuten, Jane Lindschou, 2013

机译：产科急诊中的原位模拟与异地模拟及其对知识安全态度团队绩效压力和动力的影响：一项随机对照试验的研究方案
7. Simulation study of scaling design, performance characterization, statistical variability and reliability of decananometer MOSFETs [O] . Wang Xingsheng 2010

机译：模拟研究结果设计，性能表征，统计变异性和滗析仪mOsFET的可靠性

A Multi-Method Simulation Toolbox to Study Performance and Variability of Nanowire FETs

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