A Schroedinger-Poisson Solver for Modeling Carbon Nanotube FETs

机译：用于碳纳米管FET建模的Schroedinger-Poisson解算器

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We present details of a coupled Schroedinger-Poisson solver for modeling quantum transport effects in carbon nanotube field-effect transistors. The Poisson solution is effected using a two-dimensional finite difference algorithm in a coaxial structure with azimuthal symmetry. The Schroedinger solution is implemented by the scattering matrix method, and the resultant, spatially unbounded wavefunctions, defined on the nanotube surface, are normalized to the flux computed by the Lan-dauer formula. The solver illustrates the need for detailed modeling of the nanotube due to the impact of Interference effects and evanescent modes on the carrier profiles. Non-equilibrium carrier distributions are presented for particular cases.

机译：我们介绍耦合Schroedinger-Poisson解算器的详细信息，用于建模碳纳米管场效应晶体管中的量子传输效应。在具有方位角对称性的同轴结构中，使用二维有限差分算法实现泊松解。 Schroedinger解决方案通过散射矩阵方法实现，并且将在纳米管表面上定义的结果空间无界波函数归一化为通过Lan-dauer公式计算的通量。求解器说明了由于干扰效应和渐逝模式对载体轮廓的影响而需要对纳米管进行详细建模的需求。针对特定情况给出了非平衡载波分布。

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来源
《NSTI(Nano Science and Technology Institute) Nanotechnology Conference and Trade Show(Nanotech 2004)》|2004年|P.65-68|共4页
会议地点 Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US);Boston MA(US)
作者
D.L. John; L.C. Castro; P.J.S. Pereira; D.L. Pulfrey;
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作者单位

Department of Electrical and Computer Engineering The University of British Columbia Vancouver, BC V6T 1Z4, Canada;

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原文格式 PDF
正文语种 eng
中图分类半导体技术;
关键词
carbon nanotubes; modeling; nanoelec-tronics; transistors; quantum transport;

机译：碳纳米管;建模;纳米电子学;晶体管;量子传输;

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1. Modeling charge transport in graphene nanoribbons and carbon nanotubes using a Schroedinger-Poisson solver [J] . D. I. Odili, Y. Wu, P. A. Childs, Journal of Applied Physics . 2009,第2期

机译：使用Schroedinger-Poisson求解器对石墨烯纳米带和碳纳米管中的电荷传输进行建模
2. COOS: a wave-function based Schroedinger-Poisson solver for ballistic nanotube transistors [J] . Martin Claus, Sven Mothes, Stefan Blawid, Journal of Computational Electronics . 2014,第3期

机译：COOS：基于波函数的Schroedinger-Poisson求解器，用于弹道式纳米管晶体管
3. Simulation of DGSOI MOSFETs with a Schroedinger-Poisson Based Mobility Model [J] . Andreas SCHENK, Andreas WETTSTEIN IEICE Transactions on Electronics . 2003,第3期

机译：基于Schroedinger-Poisson迁移率模型的DGSOI MOSFET的仿真
4. A Schroedinger-Poisson Solver for Modeling Carbon Nanotube FETs [C] . D.L. John, L.C. Castro, P.J.S. Pereira, NSTI nanotechnology conference and trade show . 2004

机译：一种用于造型碳纳米管FET的施罗登人泊松求解器
5. Thermal and performance modeling of nanoscale MOSFETs, carbon nanotube devices and integrated circuits. [D] . Akturk, Akin. 2006

机译：纳米级MOSFET，碳纳米管器件和集成电路的热和性能建模。
6. Biosafety of Non-Surface Modified Carbon Nanocapsules as a Potential Alternative to Carbon Nanotubes for Drug Delivery Purposes [O] . Alan C. L. Tang, Gan-Lin Hwang, Shih-Jung Tsai, 2009

机译：非表面修饰的碳纳米胶囊的生物安全性，作为药物输送用途的碳纳米管的潜在替代品
7. Issues in the modeling of carbon nanotube FETs: Structure, gate thickness, and azimuthal asymmetry [O] . 2006

机译：碳纳米管FET建模中的问题：结构，栅极厚度和方位角不对称性

A Schroedinger-Poisson Solver for Modeling Carbon Nanotube FETs

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