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Author Nakajima, Y. ♦ Hanajiri, T. ♦ Toyabe, T. ♦ Morikawa, T. ♦ Sugano, T.
Sponsorship IEEE ♦ Electron Device Soc. ♦ Nat. Sci. Found. ♦ Army Research Laboratory ♦ Naval Research Laboratory ♦ Army Research Office ♦ Nat. Inst. of Standards and Technol. ♦ Elec. and Comput. Eng. Dept., Univ. of Maryland
Source IEEE Xplore Digital Library
Content type Text
Publisher Institute of Electrical and Electronics Engineers, Inc. (IEEE)
File Format PDF
Copyright Year ©2003
Language English
Subject Domain (in DDC) Natural sciences & mathematics ♦ Physics ♦ Electricity & electronics ♦ Technology ♦ Engineering & allied operations ♦ Applied physics
Subject Keyword MOSFETs ♦ Body regions ♦ Electric potential ♦ Impact ionization ♦ Leakage current ♦ Threshold voltage
Abstract This article introduces two types of novel FD SOI MOSFETs (fully depleted silicon-on-insulator MOSFET) with novel structures. In first type, p/sup +/ region is formed under the n/sup +/ source region only and in the second type, p/sup +/ region are formed under both the n/sup +/ source region and the n/sup +/ drain region. Advantages of these novel devices over conventional FD SOI MOSFETs are confirmed using the device simulator CADDETH. They can suppress DIBL (drain induced barrier lowering) and kink effect significantly in deep sub-micron gate MOSFETs unless the drain voltage exceeds the built-in voltage between the n/sup +/ and p/sup +/ regions, maintaining SOI layers or BOX (buried oxide) layers as thick as the conventional devices.
Description Author affiliation: Bio-Nanoelectron. Res. Center, Toyo Univ., Saitama, Japan (Nakajima, Y.; Hanajiri, T.; Toyabe, T.; Morikawa, T.; Sugano, T.)
ISBN 0780381394
Educational Role Student ♦ Teacher
Age Range above 22 year
Educational Use Research ♦ Reading
Education Level UG and PG
Learning Resource Type Article
Publisher Date 2003-12-10
Publisher Place USA
Rights Holder Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Size (in Bytes) 124.79 kB
Page Count 2
Starting Page 242
Ending Page 243


Source: IEEE Xplore Digital Library