The optimum fin width in p-MuGFETs with the consideration of NBTI and hot carrier degradation

Dong Wook Kim; Woo Sang Park; Jong Tae Park

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The optimum fin width in p-MuGFETs with the consideration of NBTI and hot carrier degradation

机译：考虑到NBTI和热载流子退化，p-MuGFET中的最佳鳍片宽度

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Generally it is known that NBTI degradation increases with decrease of a channel width in p-MOSFETs but hot carrier degradation decreases. In this work, a guideline for the optimum fin width in p-MuGFETs is suggested with consideration of NBTI and hot carrier degradation. Using the device lifetime defined as the stress time necessary to reach △V_(TH) = 10 Mv, the optimum fin widths have been extracted for different stress voltages and temperatures. When a fin width is narrower than the optimum fin width, the device lifetime is governed by the NBTI degradation. However, when fin width is wider than the optimum fin width, the device lifetime is dominantly governed by hot carrier degradation. The optimum fin width decreases with the increase of the stress voltage but it increases with the increase of the stress temperature.

机译：通常，众所周知，NBTI劣化随着p-MOSFET中沟道宽度的减小而增加，但是热载流子的劣化减小。在这项工作中，提出了考虑到NBTI和热载流子退化的p-MuGFET的最佳鳍片宽度的指南。使用定义为达到△V_（TH）= 10 Mv所需的应力时间的器件寿命，针对不同的应力电压和温度提取了最佳鳍片宽度。当鳍片宽度比最佳鳍片宽度窄时，器件寿命受NBTI降级的支配。但是，当鳍片宽度大于最佳鳍片宽度时，器件寿命主要由热载流子退化决定。最佳鳍片宽度随应力电压的增加而减小，但随应力温度的升高而增加。

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来源
《Microelectronics & Reliability 》 |2010年第11期| p.1316-1319| 共4页
作者
Dong Wook Kim; Woo Sang Park; Jong Tae Park;
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作者单位

School of Electronics Eng., Inha University, #253 Yonghyun-Dong Nam-Gu, Incheon, South Korea;

rnSchool of Electronics Eng., Inha University, #253 Yonghyun-Dong Nam-Gu, Incheon, South Korea;

rnDept. of Electronics Eng., University of Incheon, #12-1 Songdo-Dong Yonsoo-Gu, Incheon 402-749, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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1. A Guideline for the Optimum Fin Width Considering Hot-Carrier and NBTI Degradation in MuGFETs [J] . Lee D. H., Lee S. M., Yu C. G., Electron Device Letters, IEEE . 2011 ,第9期

机译：MuGFET中考虑热载流子和NBTI退化的最佳鳍片宽度指南
2. A Conductive AFM Nanoscale Analysis of NBTI and Channel Hot-Carrier Degradation in MOSFETs [J] . Wu Q., Bayerl A., Porti M., Electron Devices, IEEE Transactions on . 2014 ,第9期

机译：NBTI的导电AFM纳米级分析和MOSFET中沟道热载流子的降解
3. Concurrent NBTI and Hot-Carrier Degradation in p-Channel MuGFETs [J] . Kim T. H.Yu C. G.Park J. T. Electron Device Letters, IEEE . 2011 ,第3期

机译：p沟道MuGFET中的同时NBTI和热载流子降解
4. Compact reliability model for degradation of advanced p-MOSFETs due to NBTI and hot-carrier effects in the circuit simulation [C] . Ma C., Mattausch H.J., Miyake M., International Reliability Physics Symposium . 2013

机译：紧凑的可靠性模型，用于电路仿真中由于NBTI和热载流子效应而导致的高级p-MOSFET退化
5. Study of oxide breakdown, hot carrier and NBTI effects on MOS device and circuit reliability. [D] . Liu, Yi. 2005

机译：研究氧化物击穿，热载流子和NBTI对MOS器件和电路可靠性的影响。
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The optimum fin width in p-MuGFETs with the consideration of NBTI and hot carrier degradation

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