Performance of Inversion, Accumulation, and Junctionless Mode n-Type and p-Type Bulk Silicon FinFETs With 3-nm Gate Length

Thirunavukkarasu Vasanthan; Jhan Yi-Ruei; Liu Yan-Bo; Wu Yung-Chun

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Performance of Inversion, Accumulation, and Junctionless Mode n-Type and p-Type Bulk Silicon FinFETs With 3-nm Gate Length

机译：栅极长度为3nm的反相，累加和无结模式n型和p型体硅FinFET的性能

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摘要

We investigated the device performance of the optimized 3-nm gate length ( bulk silicon FinFET device using 3-D quantum transport device simulation. By keeping source and drain doping constant and by varying only the channel doping, the simulated device is made to operate in three different modes such as inversion (IM) mode, accumulation (AC) mode and junctionless (JL) mode. The excellent electrical characteristics of the 3-nm gate length Si-based bulk FinFET device were investigated. The subthreshold slope values (SS 65 mV/decade) and drain-induced barrier lowering (DIBL < 17 mV/V) are analyzed in all three IM, AC, and JL modes bulk FinFET with V. Furthermore, the threshold voltage ( of the bulk FinFET can be easily tuned by varying the work function. This letter reveals that Moore’s law can continue up to 3-nm nodes.

机译：我们研究了优化的3 nm栅极长度（使用3-D量子传输器件仿真的体硅FinFET器件）的器件性能。通过保持源极和漏极掺杂恒定并仅改变沟道掺杂，使仿真器件能够在三种不同的模式，例如反转（IM）模式，累积（AC）模式和无结（JL）模式，研究了3nm栅极长度的Si基体FinFET器件的出色电特性。亚阈值斜率值（SS 65在所有三种IM，AC和JL模式的具有F的Fin FinFET上都分析了mV / decade和漏极引起的势垒降低（DIBL <17 mV / V）。此外，可以轻松地通过（这封信揭示了摩尔定律可以延续到3纳米节点。

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来源
《Electron Device Letters, IEEE》 |2015年第7期|645-647|共3页
作者
Thirunavukkarasu Vasanthan; Jhan Yi-Ruei; Liu Yan-Bo; Wu Yung-Chun;
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作者单位

Department of Engineering and System Science, National Tsing Hua University, Hsinchu, Taiwan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
3-nm Gate Length; 3-nm gate length; 3D TCAD simulation; FinFET; accumulation; inversion; junctionless;

机译：3纳米栅极长度;3纳米栅极长度;3D TCAD仿真;FinFET;累积;反演;无结;

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1. Origin of Device Performance Enhancement of Junctionless Accumulation-Mode (JAM) Bulk FinFETs With High- $kappa $ Gate Spacers [J] . Choi J.H., Kim T.K., Moon J.M., Electron Device Letters, IEEE . 2014,第12期

机译：具有高 inline-formula> $ kappa $ 门间隔器的无结累积模式（JAM）批量FinFET增强器件性能的起源
2. Investigation of inversion, accumulation and junctionless mode bulk Germanium FinFETs [J] . Vasanthan Thirunavukkarasu, Jaehyun Lee, Toufik Sadi, Superlattices and microstructures . 2017,第nova期

机译：反转，累积和无结模式体锗FinFET的研究
3. Fin shape influence on analog and RF performance of junctionless accumulation-mode bulk FinFETs [J] . Biswas Kalyan, Sarkar Angsuman, Sarkar Chandan Kumar Microsystem technologies . 2018,第5期

机译：翅片形状对无线累积模式散装料的模拟和RF性能的影响
4. Characteristics of inversion, accumulation and junctionless mode silicon N-type and P-type bulk FinFETs with optimized 3-nm nano-fin structure [C] . Thirunavukkarasu Vasanthan, Jhan Yi-Ruei, Liu Yan-Bo, IEEE Silicon Nanoelectronics Workshop . 2015

机译：具有优化的3纳米纳米鳍结构的反转，累积和无结模式硅N型和P型体FinFET的特性
5. Performance analysis and scaling opportunities of bulk CMOS inversion and accumulation devices. [D] . Austin, Blanca Luisa. 2001

机译：批量CMOS反相和累加器件的性能分析和扩展机会。
6. Electrical property comparison and charge transmission in p-type double gate and single gate junctionless accumulation transistor fabricated by AFM nanolithography [O] . Arash Dehzangi, A Makarimi Abdullah, Farhad Larki, 2012

机译：AFM纳米光刻制造的p型双栅极和单栅极无结累积晶体管的电性能比较和电荷传输
7. Investigation of inversion, accumulation and junctionless mode bulk Germanium FinFETs [O] . Thirunavukkarasu, Vasanthan, Lee, Jaehyun, Sadi, Toufik, 2017

机译：研究反转，积累和无结模式体锗FinFET

Performance of Inversion, Accumulation, and Junctionless Mode n-Type and p-Type Bulk Silicon FinFETs With 3-nm Gate Length

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