Ambipolar transport compact models for two-dimensional materials based field-effect transistors

Zhaoyi Yan; Guangyang Gou; Jie Ren; Fan Wu; Yang Shen; He Tian; Yi Yang; Tian Ling Ren

doi:10.26599/TST.2020.9010064

Ambipolar transport compact models for two-dimensional materials based field-effect transistors

Zhaoyi Yan
, Guangyang Gou
, Jie Ren
, Fan Wu
, Yang Shen
, He Tian^*
, Yi Yang^*
, Tian Ling Ren^*

^*Corresponding author for this work

Tsinghua University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Three main ambipolar compact models for Two-Dimensional (2D) materials based Field-Effect Transistors (2D-FETs) are reviewed: (1) Landauer model, (2) 2D Pao-Sah model, and (3) virtual Source Emission-Diffusion (VSED) model. For the Landauer model, the Gauss quadrature method is applied, and it summarizes all kinds of variants, exhibiting its state-of-art. For the 2D Pao-Sah model, the aspects of its theoretical fundamentals are rederived, and the electrostatic potentials of electrons and holes are clarified. A brief development history is compiled for the VSED model. In summary, the Landauer model is naturally appropriate for the ballistic transport of short channels, and the 2D Pao-Sah model is applicable to long-channel devices. By contrast, the VSED model offers a smooth transition between ultimate cases. These three models cover a fairly completed channel length range, which enables researchers to choose the appropriate compact model for their works.

Original language	English
Article number	9409752
Pages (from-to)	574-591
Number of pages	18
Journal	Tsinghua Science and Technology
Volume	26
Issue number	5
DOIs	https://doi.org/10.26599/TST.2020.9010064
State	Published - Oct 2021
Externally published	Yes

Keywords

Field-Effect Transistor (FET)
Landauer formula
Pao-Sah model
ambipolar transport
compact model
virtual source

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10.26599/TST.2020.9010064

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title = "Ambipolar transport compact models for two-dimensional materials based field-effect transistors",

abstract = "Three main ambipolar compact models for Two-Dimensional (2D) materials based Field-Effect Transistors (2D-FETs) are reviewed: (1) Landauer model, (2) 2D Pao-Sah model, and (3) virtual Source Emission-Diffusion (VSED) model. For the Landauer model, the Gauss quadrature method is applied, and it summarizes all kinds of variants, exhibiting its state-of-art. For the 2D Pao-Sah model, the aspects of its theoretical fundamentals are rederived, and the electrostatic potentials of electrons and holes are clarified. A brief development history is compiled for the VSED model. In summary, the Landauer model is naturally appropriate for the ballistic transport of short channels, and the 2D Pao-Sah model is applicable to long-channel devices. By contrast, the VSED model offers a smooth transition between ultimate cases. These three models cover a fairly completed channel length range, which enables researchers to choose the appropriate compact model for their works.",

keywords = "Field-Effect Transistor (FET), Landauer formula, Pao-Sah model, ambipolar transport, compact model, virtual source",

author = "Zhaoyi Yan and Guangyang Gou and Jie Ren and Fan Wu and Yang Shen and He Tian and Yi Yang and Ren, \{Tian Ling\}",

note = "Publisher Copyright: {\textcopyright} IEEE Open Journal of Signal Processing 2021.",

year = "2021",

month = oct,

doi = "10.26599/TST.2020.9010064",

language = "英语",

volume = "26",

pages = "574--591",

journal = "Tsinghua Science and Technology",

issn = "1007-0214",

publisher = "Tsinghua University",

number = "5",

}

TY - JOUR

T1 - Ambipolar transport compact models for two-dimensional materials based field-effect transistors

AU - Yan, Zhaoyi

AU - Gou, Guangyang

AU - Ren, Jie

AU - Wu, Fan

AU - Shen, Yang

AU - Tian, He

AU - Yang, Yi

AU - Ren, Tian Ling

N1 - Publisher Copyright: © IEEE Open Journal of Signal Processing 2021.

PY - 2021/10

Y1 - 2021/10

N2 - Three main ambipolar compact models for Two-Dimensional (2D) materials based Field-Effect Transistors (2D-FETs) are reviewed: (1) Landauer model, (2) 2D Pao-Sah model, and (3) virtual Source Emission-Diffusion (VSED) model. For the Landauer model, the Gauss quadrature method is applied, and it summarizes all kinds of variants, exhibiting its state-of-art. For the 2D Pao-Sah model, the aspects of its theoretical fundamentals are rederived, and the electrostatic potentials of electrons and holes are clarified. A brief development history is compiled for the VSED model. In summary, the Landauer model is naturally appropriate for the ballistic transport of short channels, and the 2D Pao-Sah model is applicable to long-channel devices. By contrast, the VSED model offers a smooth transition between ultimate cases. These three models cover a fairly completed channel length range, which enables researchers to choose the appropriate compact model for their works.

AB - Three main ambipolar compact models for Two-Dimensional (2D) materials based Field-Effect Transistors (2D-FETs) are reviewed: (1) Landauer model, (2) 2D Pao-Sah model, and (3) virtual Source Emission-Diffusion (VSED) model. For the Landauer model, the Gauss quadrature method is applied, and it summarizes all kinds of variants, exhibiting its state-of-art. For the 2D Pao-Sah model, the aspects of its theoretical fundamentals are rederived, and the electrostatic potentials of electrons and holes are clarified. A brief development history is compiled for the VSED model. In summary, the Landauer model is naturally appropriate for the ballistic transport of short channels, and the 2D Pao-Sah model is applicable to long-channel devices. By contrast, the VSED model offers a smooth transition between ultimate cases. These three models cover a fairly completed channel length range, which enables researchers to choose the appropriate compact model for their works.

KW - Field-Effect Transistor (FET)

KW - Landauer formula

KW - Pao-Sah model

KW - ambipolar transport

KW - compact model

KW - virtual source

UR - https://www.scopus.com/pages/publications/85104616549

U2 - 10.26599/TST.2020.9010064

DO - 10.26599/TST.2020.9010064

M3 - 文章

AN - SCOPUS:85104616549

SN - 1007-0214

VL - 26

SP - 574

EP - 591

JO - Tsinghua Science and Technology

JF - Tsinghua Science and Technology

IS - 5

M1 - 9409752

ER -

Ambipolar transport compact models for two-dimensional materials based field-effect transistors

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Keywords

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