Non-Parabolic Band Hydrodynamic Model for Silicon Quantum Wires

Castiglione Tina; Muscato Orazio

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Non-Parabolic Band Hydrodynamic Model for Silicon Quantum Wires

机译：硅量子电线的非抛物频带流体动力学模型

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Electron transport phenomena in silicon nanowires are investigated for square and equilateral triangle cross-sections of the wire by using an Extended Hydrodynamic model coupled to the Schrodinger-Poisson system. This model has been formulated by closing the moment system derived from the Boltzmann equation on the basis of the maximum entropy principle of Extended Thermodynamics, including scattering of electrons with acoustic and non-polar optical phonons and by considering the conduction band described by the Kane dispersion relation. Applications to the case of bulk silicon for different cross-sections of the wire are presented.

机译：通过使用耦合到Schrodinger-Poisson系统的延伸流体动力学模型，研究了硅纳米线中的电子传输现象。该模型已经通过基于延伸热力学的最大熵原理来关闭从Boltzmann方程衍生的力矩系统制定，包括具有声学和非极性光学声音的电子散射，并考虑通过kane色散描述的导通带关系。提出了用于电线的不同横截面的散装硅的壳体的应用。

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来源
《Jorunal of computational and theoretical transport 》 |2017年第7期| 共16页
作者
Castiglione Tina; Muscato Orazio;
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作者单位

Univ Catania Dept Math &

Comp Sci Viale A Doria 6 I-95125 Catania Italy;

Univ Catania Dept Math &

Comp Sci Viale A Doria 6 I-95125 Catania Italy;

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原文格式 PDF
正文语种 eng
中图分类理论物理学 ;
关键词
Hydrodynamic models; maximum entropy principle; quantum wires; semiconductors;

机译：流体动力学模型;最大熵原理;量子线;半导体;

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专利

1. Non-Parabolic Band Hydrodynamic Model for Silicon Quantum Wires [J] . Castiglione Tina, Muscato Orazio Jorunal of computational and theoretical transport . 2017 ,第1a7期

机译：硅量子电线的非抛物频带流体动力学模型
2. Comparison of Non-Parabolic Hydrodynamic ModelsBased On Different Band Structure Models [J] . Arlynn W.Smith, Kevin F.Brennan VLSI Design . 1998 ,第1a4期

机译：基于不同能带结构模型的非抛物流体力学模型的比较
3. Four-moment hydrodynamic modelling of a submicrometre semiconductor device in a non-parabolic band structure [J] . Guo LY., Luo YS., Fithen RM., Journal of Physics, D. Applied Physics: A Europhysics Journal . 1998 ,第7期

机译：非抛物线能带结构中亚微米半导体器件的四矩流体力学建模
4. GOOD-SIM: a generic object-oriented device simulator, based on the hydrodynamic model and including non-parabolic band structure effects [C] . El-Saba, M.H. . 2002

机译：GOOD-SIM：基于流体动力学模型并包含非抛物线能带效应的通用面向对象的设备模拟器
5. Generalized Monte Carlo Tool for Investigating Low-Field and High Field Properties of Materials Using Non-parabolic Band Structure Model. [D] . Hathwar, Raghuraj. 2011

机译：使用非抛物线能带结构模型研究材料的低场和高场特性的通用蒙特卡洛工具。
6. Quantum conductance of silicon-doped carbon wire nanojunctions [O] . Dominik Szczȩśniak, Antoine Khater, Zygmunt Ba̧k, 2012

机译：硅掺杂碳线纳米结的量子电导
7. 2D simulation of a silicon MESFET with a non-parabolic hydrodynamical model based on the maximum entropy principle [O] . Vittorio Romano 2002

机译：基于最大熵原理的具有非抛物线流体动力学模型的硅mEsFET的2D仿真

Non-Parabolic Band Hydrodynamic Model for Silicon Quantum Wires

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