Applicability of Macroscopic Transport Models to Decananometer MOSFETs

Vasicek M.; Cervenka J.; Esseni D.; Palestri P.; Grasser T.

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Applicability of Macroscopic Transport Models to Decananometer MOSFETs

机译：宏观传输模型对十米MOSFET的适用性

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摘要

We perform a comparative study of various macroscopic transport models against multisubband Monte Carlo (MC) device simulations for decananometer MOSFETs in an ultra-thin body double-gate realization. The transport parameters of the macroscopic models are taken from homogeneous subband MC simulations, thereby implicitly taking surface roughness and quantization effects into account. Our results demonstrate that the drift-diffusion (DD) model predicts accurate drain currents down to channel lengths of about 40 nm but fails to predict the transit frequency below 80 nm. The energy-transport (ET) model, on the other hand, gives good drain currents and transit frequencies down to 80 nm, whereas below 80 nm, the error rapidly increases. The six moments model follows the results of MC simulations down to 30 nm and outperforms the DD and the ET models.

机译：我们针对超薄体双栅极实现中的癸烷计MOSFET的多子带蒙特卡罗（MC）器件仿真，对各种宏观传输模型进行了比较研究。宏观模型的传输参数来自同质子带MC模拟，因此隐含地考虑了表面粗糙度和量化效果。我们的结果表明，漂移扩散（DD）模型可预测低至约40 nm沟道长度的准确漏极电流，但无法预测80 nm以下的传输频率。另一方面，能量传输（ET）模型提供了良好的漏极电流和低至80 nm的传输频率，而在80 nm以下，误差迅速增加。六阶矩模型遵循MC模拟的结果，直至30 nm，其性能优于DD和ET模型。

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来源
《Electron Devices, IEEE Transactions on》 |2012年第3期|p.639-646|共8页
作者
Vasicek M.; Cervenka J.; Esseni D.; Palestri P.; Grasser T.;
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作者单位

Wolfgang Pauli Institute, University of Vienna, Vienna, Austria;

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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
Drift-diffusion (DD) model; energy-transport (ET) model; higher order transport models; quantization; six moments (SM) model; subband Monte Carlo (SMC); surface roughness scattering;

机译：漂移扩散（DD）模型;能量传输（ET）模型;高阶传输模型;量化;六阶矩（SM）模型;子带蒙特卡洛（SMC）;表面粗糙度散射;

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Applicability of Macroscopic Transport Models to Decananometer MOSFETs

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