Random Dopant Fluctuation-Induced Threshold Voltage Variation-Immune Ge FinFET with Metal-Interlayer-Semiconductor Source/Drain

Changho Shin; Jeong Kyu Kim; Gwang Sik Kim; Hyunjae Lee; Changhwan Shin; Jong Kook Kim; Byung Jin Cho; Hyun Yong Yu

doi:10.1109/TED.2016.2606511

Random Dopant Fluctuation-Induced Threshold Voltage Variation-Immune Ge FinFET with Metal-Interlayer-Semiconductor Source/Drain

Changho Shin, Jeong Kyu Kim, Gwang Sik Kim, Hyunjae Lee, Changhwan Shin, Jong Kook Kim, Byung Jin Cho, Hyun Yong Yu

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

17 Citations (Scopus)

Abstract

The impact of process-induced random dopant fluctuation (RDF)-induced threshold voltage (V-_th) variation on the performance of 7-nm n-type germanium (Ge) FinFETs with and without a metal-interlayer-semiconductor (MIS) source/drain (S/D) structure is investigated using 3-D TCAD simulations. In order to reduce the RDF-induced V_th variation, an MIS S/D structure with a heavily doped n-type zinc oxide (ZnO) interlayer is used in the S/D region of the Ge FinFET. Thus, without performance degradation, the Ge FinFET with an MIS S/D structure achieves approximately threefold reduction in the RDF-induced V_th variation (versus without an MIS S/D structure). The impact of various fin parameters (i.e., fin height and fin width) on the RDF-induced V^th variation is also investigated. It is noteworthy that variation is suppressed as the fin height (fin width) increases (decreases).

Original language	English
Article number	7571111
Pages (from-to)	4167-4172
Number of pages	6
Journal	IEEE Transactions on Electron Devices
Volume	63
Issue number	11
DOIs	https://doi.org/10.1109/TED.2016.2606511
Publication status	Published - 2016 Nov

Bibliographical note

Publisher Copyright:
© 2016 IEEE.

Keywords

CMOS
FinFET
Threshold voltage variation
germanium
interlayer
random dopant fluctuation (RDF)

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1109/TED.2016.2606511

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title = "Random Dopant Fluctuation-Induced Threshold Voltage Variation-Immune Ge FinFET with Metal-Interlayer-Semiconductor Source/Drain",

abstract = "The impact of process-induced random dopant fluctuation (RDF)-induced threshold voltage (V-th) variation on the performance of 7-nm n-type germanium (Ge) FinFETs with and without a metal-interlayer-semiconductor (MIS) source/drain (S/D) structure is investigated using 3-D TCAD simulations. In order to reduce the RDF-induced Vth variation, an MIS S/D structure with a heavily doped n-type zinc oxide (ZnO) interlayer is used in the S/D region of the Ge FinFET. Thus, without performance degradation, the Ge FinFET with an MIS S/D structure achieves approximately threefold reduction in the RDF-induced Vth variation (versus without an MIS S/D structure). The impact of various fin parameters (i.e., fin height and fin width) on the RDF-induced Vth variation is also investigated. It is noteworthy that variation is suppressed as the fin height (fin width) increases (decreases).",

keywords = "CMOS, FinFET, Threshold voltage variation, germanium, interlayer, random dopant fluctuation (RDF)",

author = "Changho Shin and Kim, {Jeong Kyu} and Kim, {Gwang Sik} and Hyunjae Lee and Changhwan Shin and Kim, {Jong Kook} and Cho, {Byung Jin} and Yu, {Hyun Yong}",

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year = "2016",

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AU - Shin, Changho

AU - Kim, Jeong Kyu

AU - Kim, Gwang Sik

AU - Lee, Hyunjae

AU - Shin, Changhwan

AU - Kim, Jong Kook

AU - Cho, Byung Jin

AU - Yu, Hyun Yong

PY - 2016/11

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N2 - The impact of process-induced random dopant fluctuation (RDF)-induced threshold voltage (V-th) variation on the performance of 7-nm n-type germanium (Ge) FinFETs with and without a metal-interlayer-semiconductor (MIS) source/drain (S/D) structure is investigated using 3-D TCAD simulations. In order to reduce the RDF-induced Vth variation, an MIS S/D structure with a heavily doped n-type zinc oxide (ZnO) interlayer is used in the S/D region of the Ge FinFET. Thus, without performance degradation, the Ge FinFET with an MIS S/D structure achieves approximately threefold reduction in the RDF-induced Vth variation (versus without an MIS S/D structure). The impact of various fin parameters (i.e., fin height and fin width) on the RDF-induced Vth variation is also investigated. It is noteworthy that variation is suppressed as the fin height (fin width) increases (decreases).

AB - The impact of process-induced random dopant fluctuation (RDF)-induced threshold voltage (V-th) variation on the performance of 7-nm n-type germanium (Ge) FinFETs with and without a metal-interlayer-semiconductor (MIS) source/drain (S/D) structure is investigated using 3-D TCAD simulations. In order to reduce the RDF-induced Vth variation, an MIS S/D structure with a heavily doped n-type zinc oxide (ZnO) interlayer is used in the S/D region of the Ge FinFET. Thus, without performance degradation, the Ge FinFET with an MIS S/D structure achieves approximately threefold reduction in the RDF-induced Vth variation (versus without an MIS S/D structure). The impact of various fin parameters (i.e., fin height and fin width) on the RDF-induced Vth variation is also investigated. It is noteworthy that variation is suppressed as the fin height (fin width) increases (decreases).

KW - CMOS

KW - FinFET

KW - Threshold voltage variation

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KW - interlayer

KW - random dopant fluctuation (RDF)

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Random Dopant Fluctuation-Induced Threshold Voltage Variation-Immune Ge FinFET with Metal-Interlayer-Semiconductor Source/Drain

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Keywords

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