Influence of the interface-state density on the electron mobility in silicon inversion layers

J. Banqueri; F. Gámiz; J. E. Carceller; P. Cartujo; J. A. López-Villanueva

doi:10.1007/BF02817689

Influence of the interface-state density on the electron mobility in silicon inversion layers

J. Banqueri
, F. Gámiz
, J. E. Carceller
, P. Cartujo
, J. A. López-Villanueva

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

12 Scopus citations

Abstract

The electron inversion-layer mobility in a metal oxide semiconductor field effect transistor, as a function of the transverse electric field, has been studied in the temperature range 13-300K for different interface-state densities. Experimental data are in excellent agreement with a simple semi-empirical model. However, the term attributed by other authors to phonon scattering depends on the interface-state density, even at high temperatures, and becomes negative at low temperatures. These facts are shown to be a consequence of the dependence of coulomb scattering on the transverse electric field.

Original language	English
Pages (from-to)	1159-1163
Number of pages	5
Journal	Journal of Electronic Materials
Volume	22
Issue number	9
DOIs	https://doi.org/10.1007/BF02817689
State	Published - 1 Jan 1993
Externally published	Yes

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title = "Influence of the interface-state density on the electron mobility in silicon inversion layers",

abstract = "The electron inversion-layer mobility in a metal oxide semiconductor field effect transistor, as a function of the transverse electric field, has been studied in the temperature range 13-300K for different interface-state densities. Experimental data are in excellent agreement with a simple semi-empirical model. However, the term attributed by other authors to phonon scattering depends on the interface-state density, even at high temperatures, and becomes negative at low temperatures. These facts are shown to be a consequence of the dependence of coulomb scattering on the transverse electric field.",

keywords = "Interface-state density, MOSFET, Si, inversion-layer mobility",

author = "J. Banqueri and F. G{\'a}miz and Carceller, \{J. E.\} and P. Cartujo and L{\'o}pez-Villanueva, \{J. A.\}",

year = "1993",

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doi = "10.1007/BF02817689",

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T1 - Influence of the interface-state density on the electron mobility in silicon inversion layers

AU - Banqueri, J.

AU - Gámiz, F.

AU - Carceller, J. E.

AU - Cartujo, P.

AU - López-Villanueva, J. A.

PY - 1993/1/1

Y1 - 1993/1/1

N2 - The electron inversion-layer mobility in a metal oxide semiconductor field effect transistor, as a function of the transverse electric field, has been studied in the temperature range 13-300K for different interface-state densities. Experimental data are in excellent agreement with a simple semi-empirical model. However, the term attributed by other authors to phonon scattering depends on the interface-state density, even at high temperatures, and becomes negative at low temperatures. These facts are shown to be a consequence of the dependence of coulomb scattering on the transverse electric field.

AB - The electron inversion-layer mobility in a metal oxide semiconductor field effect transistor, as a function of the transverse electric field, has been studied in the temperature range 13-300K for different interface-state densities. Experimental data are in excellent agreement with a simple semi-empirical model. However, the term attributed by other authors to phonon scattering depends on the interface-state density, even at high temperatures, and becomes negative at low temperatures. These facts are shown to be a consequence of the dependence of coulomb scattering on the transverse electric field.

KW - Interface-state density

KW - MOSFET

KW - Si

KW - inversion-layer mobility

UR - https://www.scopus.com/pages/publications/0027656648

U2 - 10.1007/BF02817689

DO - 10.1007/BF02817689

M3 - Article

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SP - 1159

EP - 1163

JO - Journal of Electronic Materials

JF - Journal of Electronic Materials

IS - 9

ER -

Influence of the interface-state density on the electron mobility in silicon inversion layers

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