Modelling and measurements of the parasitic electrostatic capacitances in Si/SiGe n-HFET

N. Zerounian; M. Enciso-Aguilar; T. Hackbarth; H. J. Herzog; F. Aniel

doi:10.1016/j.sse.2007.01.027

Modelling and measurements of the parasitic electrostatic capacitances in Si/SiGe n-HFET

N. Zerounian, M. Enciso-Aguilar, T. Hackbarth, H. J. Herzog, F. Aniel

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

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

2 Scopus citations

Abstract

The influence of parasitic capacitance on high frequency performances of SiGe n-HFET is reported. These capacitances arising from the fringe and electrostatic contributions of the gate are extracted from HF measurements and estimated with a 2D hydrodynamic modelling and with a 2D electrostatic modelling of the device. The main electrostatic contribution arises from the strong direct coupling between the mushroom-shaped gate and the 2D electron gas in the quantum well increased by the thin oxide layer above the undoped Si cap layer. The height of the gate foot, the shape of the top of the gate are investigated, showing that if the mushroom shape increase the capacitance by 22% compared to a simple-shaped gate, the increase of its size has less impact than the oxide thickness and the aspect ratio. The extrinsic capacitances can degrade by 27% the intrinsic properties of the transistors reported here.

Original language	English
Pages (from-to)	449-459
Number of pages	11
Journal	Solid-State Electronics
Volume	51
Issue number	3
DOIs	https://doi.org/10.1016/j.sse.2007.01.027
State	Published - Mar 2007

Keywords

Capacitance
Device modelling
Finite element method
Heterojunction field effect transistor
Parasitic capacitance
SiGe

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10.1016/j.sse.2007.01.027

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title = "Modelling and measurements of the parasitic electrostatic capacitances in Si/SiGe n-HFET",

abstract = "The influence of parasitic capacitance on high frequency performances of SiGe n-HFET is reported. These capacitances arising from the fringe and electrostatic contributions of the gate are extracted from HF measurements and estimated with a 2D hydrodynamic modelling and with a 2D electrostatic modelling of the device. The main electrostatic contribution arises from the strong direct coupling between the mushroom-shaped gate and the 2D electron gas in the quantum well increased by the thin oxide layer above the undoped Si cap layer. The height of the gate foot, the shape of the top of the gate are investigated, showing that if the mushroom shape increase the capacitance by 22% compared to a simple-shaped gate, the increase of its size has less impact than the oxide thickness and the aspect ratio. The extrinsic capacitances can degrade by 27% the intrinsic properties of the transistors reported here.",

keywords = "Capacitance, Device modelling, Finite element method, Heterojunction field effect transistor, Parasitic capacitance, SiGe",

author = "N. Zerounian and M. Enciso-Aguilar and T. Hackbarth and Herzog, {H. J.} and F. Aniel",

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AU - Zerounian, N.

AU - Enciso-Aguilar, M.

AU - Hackbarth, T.

AU - Herzog, H. J.

AU - Aniel, F.

PY - 2007/3

Y1 - 2007/3

N2 - The influence of parasitic capacitance on high frequency performances of SiGe n-HFET is reported. These capacitances arising from the fringe and electrostatic contributions of the gate are extracted from HF measurements and estimated with a 2D hydrodynamic modelling and with a 2D electrostatic modelling of the device. The main electrostatic contribution arises from the strong direct coupling between the mushroom-shaped gate and the 2D electron gas in the quantum well increased by the thin oxide layer above the undoped Si cap layer. The height of the gate foot, the shape of the top of the gate are investigated, showing that if the mushroom shape increase the capacitance by 22% compared to a simple-shaped gate, the increase of its size has less impact than the oxide thickness and the aspect ratio. The extrinsic capacitances can degrade by 27% the intrinsic properties of the transistors reported here.

AB - The influence of parasitic capacitance on high frequency performances of SiGe n-HFET is reported. These capacitances arising from the fringe and electrostatic contributions of the gate are extracted from HF measurements and estimated with a 2D hydrodynamic modelling and with a 2D electrostatic modelling of the device. The main electrostatic contribution arises from the strong direct coupling between the mushroom-shaped gate and the 2D electron gas in the quantum well increased by the thin oxide layer above the undoped Si cap layer. The height of the gate foot, the shape of the top of the gate are investigated, showing that if the mushroom shape increase the capacitance by 22% compared to a simple-shaped gate, the increase of its size has less impact than the oxide thickness and the aspect ratio. The extrinsic capacitances can degrade by 27% the intrinsic properties of the transistors reported here.

KW - Capacitance

KW - Device modelling

KW - Finite element method

KW - Heterojunction field effect transistor

KW - Parasitic capacitance

KW - SiGe

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U2 - 10.1016/j.sse.2007.01.027

DO - 10.1016/j.sse.2007.01.027

M3 - Artículo

SN - 0038-1101

VL - 51

SP - 449

EP - 459

JO - Solid-State Electronics

JF - Solid-State Electronics

IS - 3

ER -

Modelling and measurements of the parasitic electrostatic capacitances in Si/SiGe n-HFET

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Keywords

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