Avraham Chelly scite author profile

Ultrathin body (UTB) and nanoscale body (NSB) SOI-MOSFET devices, sharing a similar W/L but with a channel thickness of 46 nm and lower than 5 nm, respectively, were fabricated using a selective “gate-recessed” process on the same silicon wafer. Their current-voltage characteristics measured at room temperature were found to be surprisingly different by several orders of magnitude. We analyzed this result by considering the severe mobility degradation and the influence of a huge series resistance and found that the last one seems more coherent. Then the electrical characteristics of the NSB can be analytically derived by integrating a gate voltage-dependent drain source series resistance. In this paper, the influence of the channel thickness on the series resistance is reported for the first time. This influence is integrated to the analytical model in order to describe the trends of the saturation current with the channel thickness. This modeling approach may be useful to interpret anomalous electrical behavior of other nanodevices in which series resistance and/or mobility degradation is of a great concern.

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Electro-optical study of nanoscale Al-Si-truncated conical photodetector with subwavelength aperture

Karelits

Mandelbaum

Chelly

et al. 2017

J. Nanophoton

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Silicon on insulator photo-activated modulator

Abraham

Zalevsky

Chelly

et al. 2008

Microelectronics Journal

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Fabrication of vertically positioned silicon on insulator photo-activated modulator

Abraham

Zalevsky

Chelly

et al. 2009

Photonics and Nanostructures - Fundamentals and Applications

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Avraham Chelly

Application, modeling and limitations of Y-function based methods for massive series resistance in nanoscale SOI MOSFETs

Modeling of the Channel Thickness Influence on Electrical Characteristics and Series Resistance in Gate-Recessed Nanoscale SOI MOSFETs

Electro-optical study of nanoscale Al-Si-truncated conical photodetector with subwavelength aperture

Silicon on insulator photo-activated modulator

Fabrication of vertically positioned silicon on insulator photo-activated modulator

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