Analytical capacitance model for 14 nm FinFET considering dual-k spacer

Fang Lin Zheng; Cheng Sheng Liu; Jia Qi Ren; Yan Ling Shi; Ya Bin Sun; Xiao Jin Li

doi:10.1088/1674-1056/26/7/077303

Analytical capacitance model for 14 nm FinFET considering dual-k spacer

Fang Lin Zheng
, Cheng Sheng Liu
, Jia Qi Ren
, Yan Ling Shi
, Ya Bin Sun
, Xiao Jin Li^*

^*此作品的通讯作者

通信与电子工程学院

East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

The conformal mapping of an electric field has been employed to develop an accurate parasitic capacitance model for nanoscale fin field-effect transistor (FinFET) device. Firstly, the structure of the dual-layer spacers and the gate parasitic capacitors are thoroughly analyzed. Then, the Cartesian coordinate is transferred into the elliptic coordinate and the equivalent fringe capacitance model can be built-up by some arithmetical operations. In order to validate our proposed model, the comparison of statistical analysis between the proposed calculation and the 3D-TCAD simulation has been carried out, and several different material combinations of the dual-k structure have been considered. The results show that the proposed analytical model can accurately calculate the fringe capacitance of the FinFET device with dual-k spacers.

源语言	英语
文章编号	077303
期刊	Chinese Physics B
卷	26
期	7
DOI	https://doi.org/10.1088/1674-1056/26/7/077303
出版状态	已出版 - 6月 2017

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@article{992b14e400f3455bbd4f5776370857e1,

title = "Analytical capacitance model for 14 nm FinFET considering dual-k spacer",

abstract = "The conformal mapping of an electric field has been employed to develop an accurate parasitic capacitance model for nanoscale fin field-effect transistor (FinFET) device. Firstly, the structure of the dual-layer spacers and the gate parasitic capacitors are thoroughly analyzed. Then, the Cartesian coordinate is transferred into the elliptic coordinate and the equivalent fringe capacitance model can be built-up by some arithmetical operations. In order to validate our proposed model, the comparison of statistical analysis between the proposed calculation and the 3D-TCAD simulation has been carried out, and several different material combinations of the dual-k structure have been considered. The results show that the proposed analytical model can accurately calculate the fringe capacitance of the FinFET device with dual-k spacers.",

keywords = "Conformal mapping, Fin field-effect transistor, Parasitic capacitance model, TCAD",

author = "Zheng, \{Fang Lin\} and Liu, \{Cheng Sheng\} and Ren, \{Jia Qi\} and Shi, \{Yan Ling\} and Sun, \{Ya Bin\} and Li, \{Xiao Jin\}",

note = "Publisher Copyright: {\textcopyright} 2017 Chinese Physical Society and IOP Publishing Ltd.",

year = "2017",

month = jun,

doi = "10.1088/1674-1056/26/7/077303",

language = "英语",

volume = "26",

journal = "Chinese Physics B",

issn = "1674-1056",

publisher = "Institute of Physics",

number = "7",

}

TY - JOUR

T1 - Analytical capacitance model for 14 nm FinFET considering dual-k spacer

AU - Zheng, Fang Lin

AU - Liu, Cheng Sheng

AU - Ren, Jia Qi

AU - Shi, Yan Ling

AU - Sun, Ya Bin

AU - Li, Xiao Jin

PY - 2017/6

Y1 - 2017/6

N2 - The conformal mapping of an electric field has been employed to develop an accurate parasitic capacitance model for nanoscale fin field-effect transistor (FinFET) device. Firstly, the structure of the dual-layer spacers and the gate parasitic capacitors are thoroughly analyzed. Then, the Cartesian coordinate is transferred into the elliptic coordinate and the equivalent fringe capacitance model can be built-up by some arithmetical operations. In order to validate our proposed model, the comparison of statistical analysis between the proposed calculation and the 3D-TCAD simulation has been carried out, and several different material combinations of the dual-k structure have been considered. The results show that the proposed analytical model can accurately calculate the fringe capacitance of the FinFET device with dual-k spacers.

AB - The conformal mapping of an electric field has been employed to develop an accurate parasitic capacitance model for nanoscale fin field-effect transistor (FinFET) device. Firstly, the structure of the dual-layer spacers and the gate parasitic capacitors are thoroughly analyzed. Then, the Cartesian coordinate is transferred into the elliptic coordinate and the equivalent fringe capacitance model can be built-up by some arithmetical operations. In order to validate our proposed model, the comparison of statistical analysis between the proposed calculation and the 3D-TCAD simulation has been carried out, and several different material combinations of the dual-k structure have been considered. The results show that the proposed analytical model can accurately calculate the fringe capacitance of the FinFET device with dual-k spacers.

KW - Conformal mapping

KW - Fin field-effect transistor

KW - Parasitic capacitance model

KW - TCAD

UR - https://www.scopus.com/pages/publications/85021884966

U2 - 10.1088/1674-1056/26/7/077303

DO - 10.1088/1674-1056/26/7/077303

M3 - 文章

AN - SCOPUS:85021884966

SN - 1674-1056

VL - 26

JO - Chinese Physics B

JF - Chinese Physics B

IS - 7

M1 - 077303

ER -

Analytical capacitance model for 14 nm FinFET considering dual-k spacer

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