Experimental Study of Self-Heating Effects in Trigate Nanowire MOSFETs Considering Device Geometry

Ota K.; Saitoh M.; Tanaka C.; Nakabayashi Y.; Numata T.

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Experimental Study of Self-Heating Effects in Trigate Nanowire MOSFETs Considering Device Geometry

机译：考虑器件几何结构的Trigate纳米线MOSFET自热效应的实验研究

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Temperature rise by self-heating effects in nanowire (NW) transistors (NW Trs.) is systematically studied with respect to their dependence on the structural parameters. Temperature rise in NW Tr. is found to be independent of the NW size in sub-100-nm regions when compared at the same total power consumption. This is because the heat generated by the drain current is spread to the area larger than the NW channel. Dependences of temperature rise on other parameters such as gate oxide or buried oxide thickness suggest that heat dissipates mainly via source/drain or substrate not via the gate electrode.

机译：关于纳米线晶体管（NW Trs。）对结构参数的依赖性，系统地研究了由于自身发热效应而引起的温度上升。 NW Tr中的温度上升。当在相同的总功耗下进行比较时，发现在100nm以下的区域中Nw与NW尺寸无关。这是因为由漏极电流产生的热量散布到大于NW沟道的区域。温度升高对其他参数（如栅极氧化物或掩埋氧化物厚度）的依赖性表明，热量主要通过源极/漏极或衬底而不是通过栅电极消散。

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来源
《Electron Devices, IEEE Transactions on》 |2012年第12期|p.3239-3242|共4页
作者
Ota K.; Saitoh M.; Tanaka C.; Nakabayashi Y.; Numata T.;
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作者单位

Advanced LSI Technology Laboratory, Corporate R&D Center, Toshiba Corporation, Yokohama, Japan;

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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
Self-heating effect (SHE); silicon nanowire (NW) transistor (NW Tr.); silicon on insulator (SOI);

机译：自热效应（SHE）;硅纳米线（NW）晶体管（NW Tr。）;绝缘体上硅（SOI）;

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1. Experimental Study of Random Telegraph Noise in Trigate Nanowire MOSFETs [J] . Ota Kensuke, Saitoh Masumi, Tanaka Chika, Electron Devices, IEEE Transactions on . 2015,第11期

机译：Trigate纳米线MOSFET中随机电报噪声的实验研究
2. Study of self-heating effects in SOI and conventional MOSFETs with electro-thermal particle-based device simulator [J] . K. Raleva, D. Vasileska, A. Hossain, Journal of Computational Electronics . 2012,第1期

机译：使用基于电热粒子的器件模拟器研究SOI和常规MOSFET中的自热效应
3. Analysis of Self-Heating Effects in Ultrathin-Body SOI MOSFETs by Device Simulation [J] . Fiegna C., Yang Y., Sangiorgi E., IEEE Transactions on Electron Devices . 2008,第1期

机译：超薄体SOI MOSFET自热效应的器件仿真分析
4. Systematic understanding of self-heating effects in tri-gate nanowire MOSFETs considering device geometry and carrier transport [C] . Ota Kensuke, Saitoh Masumi, Tanaka Chika, 2011 IEEE International Electron Devices Meeting . 2011

机译：考虑器件几何结构和载流子传输，对三栅极纳米线MOSFET自热效应的系统理解
5. An experimental study on thermal bonding effects of PMMA based micro-devices using hot embossing. [D] . Sood, Varun. 2007

机译：基于PMMA的微器件热压印热粘合效果的实验研究。
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
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Experimental Study of Self-Heating Effects in Trigate Nanowire MOSFETs Considering Device Geometry

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