Noniterative Compact Modeling for Intrinsic Carbon-Nanotube FETs: Quantum Capacitance and Ballistic Transport

Wei L.; Frank D. J.; Chang L.; Wong H.-S. P.

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Noniterative Compact Modeling for Intrinsic Carbon-Nanotube FETs: Quantum Capacitance and Ballistic Transport

机译：固有碳纳米管FET的非迭代紧凑建模：量子电容和弹道传输。

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In this paper, an analytical model of intrinsic carbon-nanotube field-effect transistors is presented. The origins of the channel carriers are analyzed in the ballistic limit. A noniterative surface-potential model is developed based on an analytical electrostatic model and a piecewise constant quantum-capacitance model. The model is computationally efficient with no iteration or numerical integration involved, thus facilitating fast circuit simulation and system optimization. Essential physics such as drain-induced barrier lowering and quantum capacitance are captured with reasonable accuracy.

机译：本文提出了本征碳纳米管场效应晶体管的分析模型。在弹道极限中分析通道载波的起源。基于解析静电模型和分段常数量子电容模型，建立了一个非迭代表面电势模型。该模型计算效率高，不涉及迭代或数值积分，因此有助于快速进行电路仿真和系统优化。基本物理原理（例如漏极引起的势垒降低和量子电容）以合理的精度被捕获。

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来源
《Electron Devices, IEEE Transactions on》 |2011年第8期|p.2456-2465|共10页
作者
Wei L.; Frank D. J.; Chang L.; Wong H.-S. P.;
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作者单位

Department of Electrical Engineering, Stanford University, CA, 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
关键词
Analytical model; ballistic transport; carbon nanotube (CNT); carbon-nanotube field-effect transistor (CNTFET); compact model; quantum capacitance;

机译：分析模型;弹道传输;碳纳米管（CNT）;碳纳米管场效应晶体管（CNTFET）;紧凑模型;量子电容;

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1. Compact model for ballistic single wall CNTFET under quantum capacitance limit [J] . Amandeep Singh, Mamta Khosla, Balwinder Raj Journal of Semiconductors . 2016,第10期

机译：量子电容极限下弹道单壁CNTFET的紧凑模型
2. Erratum to “Large-Signal Model of Graphene Field-Effect Transistors—Part I: Compact Modeling of GFET Intrinsic Capacitances” [Jul 16 2936-2941] [J] . Pasadas Francisco, Jimenez David IEEE Transactions on Electron Devices . 2019,第5期

机译：勘误表“石墨烯场效应晶体管的大信号模型-第一部分：GFET本征电容的紧凑模型” [2936年7月16日]
3. Large-Signal Model of Graphene Field-Effect Transistors—Part I: Compact Modeling of GFET Intrinsic Capacitances [J] . Francisco Pasadas, David Jiménez IEEE Transactions on Electron Devices . 2016,第7期

机译：石墨烯场效应晶体管的大信号模型-第一部分：GFET本征电容的紧凑模型
4. Compact Modeling of Negative Capacitance Nanosheet FET including Quasi-Ballistic Transport [C] . A. D. Gaidhane, G. Pahwa, A. Dasgupta, IEEE Electron Devices Technology and Manufacturing Conference . 2020

机译：包括准弹道输运的负电容纳米片FET的紧凑模型
5. Compact modeling of quantum effects in double gate MOSFETs . [D] . Wang, Wei. 2007

机译：双栅MOSFET量子效应的紧凑模型。
6. Carbon-Nanotube—Electrolyte Interface: Quantum and Electric Double Layer Capacitance [O] . Jinfeng Li, Phi H. Q. Pham, Weiwei Zhou, -1

机译：碳纳米管-电解质界面：量子和双电层电容
7. Large-signal model of graphene field-effect transistors. Part I : compact modeling of GFET intrinsic capacitances [O] . Pasadas, Francisco 2016

机译：石墨烯场效应晶体管的大信号模型。第一部分：GFET本征电容的紧凑模型
8. Calculation of Intrinsic Capacitances of GaAs FETs for Switching Circuits. [R] . Gopinath, A., Rankin, J. B. 1983

机译：开关电路用Gaas FET的本征电容计算。

Noniterative Compact Modeling for Intrinsic Carbon-Nanotube FETs: Quantum Capacitance and Ballistic Transport

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