Impact of a 10nm ultra-thin BOX (UTBOX) and ground plane on FDSOI devices for 32nm node and below

Authors :: Loan Pham-Nguyen
Stephane Denorme
P. Gros
Pascal Gouraud
Pierre Perreau
Sébastien Barnola
Sebastien Haendler
A. Margain
Y. Campidelli
F. Boedt
Olivier Weber
Christian Arvet
Daniel Delprat
J. Vetier
Francois Leverd
Remi Beneyton
C. Fenouillet-Beranger
C. Perrot
Tomasz Skotnicki
Stephane Monfray
Bich-Yen Nguyen
O. Faynot
F. Baron
Konstantin Bourdelle
C. de Buttet
A. Torres
Francois Andrieu
L. Pinzelli
L. Tosti
C. Borowiak
C. Laviron
F. Abbate
Source :: Solid-State Electronics. 54:849-854
Publication Year :: 2010
Publisher :: Elsevier BV, 2010.
Abstract: In this paper we explore for the first time the impact of an ultra-thin BOX (UTBOX) with and without ground plane (GP) on a 32 nm fully-depleted SOI (FDSOI) high-k/metal gate technology. The performance comparison versus thick BOX architecture exhibits a 50 mV DIBL reduction by using 10 nm BOX thickness for NMOS and PMOS devices at 33 nm gate length. Moreover, the combination of DIBL reduction and threshold voltage modulation by adding GP enables to reduce the Isb current by a factor 2.8 on a 0.299μm2 SRAM cell while maintaining an SNM of 296 mV@Vdd 1.1 V.

Subjects :: Materials science
business.industry
Electrical engineering
Silicon on insulator
Condensed Matter Physics
Subthreshold slope
Electronic, Optical and Magnetic Materials
PMOS logic
Threshold voltage
Materials Chemistry
Optoelectronics
Electrical and Electronic Engineering
business
Metal gate
NMOS logic
High-κ dielectric
Ground plane

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