Universality of electron mobility curves in MOSFETs: a Monte Carlo study

F. Gamiz; J. A. Lopez-Villanueva; J. Banqueri; J. E. Carceller; P. Cartujo

doi:10.1109/16.370071

Universality of electron mobility curves in MOSFETs: a Monte Carlo study

F. Gamiz
, J. A. Lopez-Villanueva
, J. Banqueri
, J. E. Carceller
, P. Cartujo

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

63 Scopus citations

Abstract

The universal behavior of electron mobility when plotted versus the effective field is physically studied. Due to charged centers in the silicon bulk, the oxide, and the interface, Coulomb scattering is shown to be responsible for the deviation of mobility curves. Silicon bulk-impurities have a double effect: (a) Coulomb scattering due to the charge of these impurities themselves, and (b) reduction of screening caused by the loss of inversion charge when the depletion charge is increased. The electric-field region in which mobility curves behave universally regardless of bulk-impurity concentration, substrate bias, or interface charge has been determined for state-of-the-art MOSFETs. Finally, this study shows that electron mobility must be a function of the inversion and the depletion charges rather than a simple function of the effective field.

Original language	English
Pages (from-to)	258-265
Number of pages	8
Journal	IEEE Transactions on Electron Devices
Volume	42
Issue number	2
DOIs	https://doi.org/10.1109/16.370071
State	Published - 1 Jan 1995
Externally published	Yes

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title = "Universality of electron mobility curves in MOSFETs: a Monte Carlo study",

abstract = "The universal behavior of electron mobility when plotted versus the effective field is physically studied. Due to charged centers in the silicon bulk, the oxide, and the interface, Coulomb scattering is shown to be responsible for the deviation of mobility curves. Silicon bulk-impurities have a double effect: (a) Coulomb scattering due to the charge of these impurities themselves, and (b) reduction of screening caused by the loss of inversion charge when the depletion charge is increased. The electric-field region in which mobility curves behave universally regardless of bulk-impurity concentration, substrate bias, or interface charge has been determined for state-of-the-art MOSFETs. Finally, this study shows that electron mobility must be a function of the inversion and the depletion charges rather than a simple function of the effective field.",

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AU - Gamiz, F.

AU - Lopez-Villanueva, J. A.

AU - Banqueri, J.

AU - Carceller, J. E.

AU - Cartujo, P.

PY - 1995/1/1

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N2 - The universal behavior of electron mobility when plotted versus the effective field is physically studied. Due to charged centers in the silicon bulk, the oxide, and the interface, Coulomb scattering is shown to be responsible for the deviation of mobility curves. Silicon bulk-impurities have a double effect: (a) Coulomb scattering due to the charge of these impurities themselves, and (b) reduction of screening caused by the loss of inversion charge when the depletion charge is increased. The electric-field region in which mobility curves behave universally regardless of bulk-impurity concentration, substrate bias, or interface charge has been determined for state-of-the-art MOSFETs. Finally, this study shows that electron mobility must be a function of the inversion and the depletion charges rather than a simple function of the effective field.

AB - The universal behavior of electron mobility when plotted versus the effective field is physically studied. Due to charged centers in the silicon bulk, the oxide, and the interface, Coulomb scattering is shown to be responsible for the deviation of mobility curves. Silicon bulk-impurities have a double effect: (a) Coulomb scattering due to the charge of these impurities themselves, and (b) reduction of screening caused by the loss of inversion charge when the depletion charge is increased. The electric-field region in which mobility curves behave universally regardless of bulk-impurity concentration, substrate bias, or interface charge has been determined for state-of-the-art MOSFETs. Finally, this study shows that electron mobility must be a function of the inversion and the depletion charges rather than a simple function of the effective field.

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Universality of electron mobility curves in MOSFETs: a Monte Carlo study

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