Hydrodynamic modeling of short-channel devices using an upwind flux vector splitting scheme

Wai-Kay Yip; Min Shen; Ming-C. Cheng; Robert Fithen; Goodarz Ahmadi

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Hydrodynamic modeling of short-channel devices using an upwind flux vector splitting scheme

机译：使用迎风通量矢量分裂方案的短通道设备水动力建模

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摘要

Upwind flux vector splitting is presented for hydrodynamic modeling of 1D and 2D deep-submicron semiconductor devices. This approach splits the Jacobian matrices of the hydrodynamic system into two parts corresponding to forward and backward running fluxes, and an upwind difference is applied to each split flux. Influences of the boundary discontinuity of electric field and velocity on transport results in the 2D deep-submicron devices are discussed. The study demonstrates that the developed method is capable of handling large discontinuity of the boundary conditions, and highly non-linear source terms in short-channel semiconductor devices.

机译：提出了用于一维和二维深亚微米半导体器件的流体动力学建模的迎风矢量分裂。这种方法将流体动力系统的雅可比矩阵分为与前进和后退通量相对应的两部分，并且向每个分离通量施加迎风差异。讨论了电场和速度的边界不连续性对二维深亚微米器件中传输结果的影响。研究表明，所开发的方法能够处理边界条件的大不连续性，以及短通道半导体器件中的高度非线性源项。

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《Computer Methods in Applied Mechanics and Engineering》 |2002年第48期|p.5427-5445|共19页
作者
Wai-Kay Yip; Min Shen; Ming-C. Cheng; Robert Fithen; Goodarz Ahmadi;
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作者单位

Silvaco International, 7 Technology Drive, North Chelmsford, MA 01863, USA;

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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
中图分类自动化基础理论;工程基础科学;
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1. Application of kinetic flux vector splitting scheme for solving multi-dimensional hydrodynamical models of semiconductor devices [J] . Ubaid Ahmed Nisar, Waqas Ashraf, Shamsul Qamar Results in Physics . 2017,第1期

机译：动量矢量分裂方案在求解半导体器件多维流体力学模型中的应用
2. Application of kinetic flux vector splitting scheme for solving viscous quantum hydrodynamical model of semiconductor devices [J] . Ubaid Ahmed Nisar, Waqas Ashraf, Shamsul Qamar Results in Physics . 2018,第1期

机译：动量矢量分裂方案在求解半导体器件粘性量子流体力学模型中的应用
3. Application of kinetic flux vector splitting scheme for solving viscous quantum hydrodynamical model of semiconductor devices [J] . Ubaid Ahmed Nisar, Waqas Ashraf, Shamsul Qamar Results in Physics . 2018,第6期

机译：动量矢量分裂方案在求解半导体器件粘性量子流体力学模型中的应用
4. An upstream flux splitting method for hydrodynamic modeling of deep submicron devices [C] . Shen, M., Wai-Kay Yip . 2000

机译：深亚微米装置流体动力学建模的上游通量分裂方法
5. Numerical simulation of semiconductor devices using hydrodynamic model with different upwind flux splitting schemes. [D] . Yip, Wai Kay. 2002

机译：使用具有不同迎风分裂方案的流体动力学模型对半导体器件进行数值模拟。
6. A kinetic flux vector splitting scheme for shallow water equations incorporating variable bottom topography and horizontal temperature gradients [O] . M. Rehan Saleem, Waqas Ashraf, Saqib Zia, 2012

机译：结合了可变底部地形和水平温度梯度的浅水方程的动量矢量分裂方案
7. Application of kinetic flux vector splitting scheme for solving multi-dimensional hydrodynamical models of semiconductor devices [O] . Ubaid Ahmed Nisar, Waqas Ashraf, Shamsul Qamar 2017

机译：动力学通量矢量分裂方法在求解半导体器件多维流体动力学模型中的应用
8. Entropy Analysis of Kinetic Flux Vector Splitting Schemes for the Compressible Euler Equations [R] . Shiuhong, L. , Xu, J. 1999

机译：可压缩Euler方程动力学通量矢量分裂格式的熵分析

Hydrodynamic modeling of short-channel devices using an upwind flux vector splitting scheme

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