Journal ArticleDOI
Uniaxial-process-induced strained-Si: extending the CMOS roadmap
TLDR
In this article, a more complete data set of n-and p-channel MOSFET piezoresistance and strain-altered gate tunneling is presented along with new insight into the physical mechanisms responsible for hole mobility enhancement.Abstract:
This paper reviews the history of strained-silicon and the adoption of uniaxial-process-induced strain in nearly all high-performance 90-, 65-, and 45-nm logic technologies to date. A more complete data set of n- and p-channel MOSFET piezoresistance and strain-altered gate tunneling is presented along with new insight into the physical mechanisms responsible for hole mobility enhancement. Strained-Si hole mobility data are analyzed using six band k/spl middot/p calculations for stresses of technological importance: uniaxial longitudinal compressive and biaxial stress on [001] and [110] wafers. The calculations and experimental data show that low in-plane and large out-of-plane conductivity effective masses and a high density of states in the top band are all important for large hole mobility enhancement. This work suggests longitudinal compressive stress on [001] or [110] wafers and channel direction offers the most favorable band structure for holes. The maximum Si inversion-layer hole mobility enhancement is estimated to be /spl sim/ 4 times higher for uniaxial stress on (100) wafer and /spl sim/ 2 times higher for biaxial stress on (100) wafer and for uniaxial stress on a [110] wafer.read more
Citations
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Physics of strain effects in semiconductors and metal-oxide-semiconductor field-effect transistors
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Nanoscale holographic interferometry for strain measurements in electronic devices
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References
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Journal ArticleDOI
Piezoresistance Effect in Germanium and Silicon
TL;DR: In this article, the complete tensor piezoresistance has been determined experimentally for these materials and expressed in terms of the pressure coefficient of resistivity and two simple shear coefficients.
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Theoretical calculations of heterojunction discontinuities in the Si/Ge system.
TL;DR: A theoretical study of the structural and electronic properties of pseudomorphic Si/Ge interfaces, in which the layers are strained such that the lattice spacing parallel to the interface is equal on both sides.
Journal ArticleDOI
Self-Consistent Results for n -Type Si Inversion Layers
TL;DR: In this article, self-consistent results for energy levels, populations, and charge distributions are given for $n$-type inversion layers on $p$ -type silicon.
Proceedings ArticleDOI
A 90nm high volume manufacturing logic technology featuring novel 45nm gate length strained silicon CMOS transistors
Tahir Ghani,Mark Armstrong,C. Auth,M. Bost,P. Charvat,G. Glass,T. Hoffmann,K. Johnson,C. Kenyon,Jason Klaus,B. McIntyre,Kaizad Mistry,Anand Portland Murthy,J. Sandford,M. Silberstein,Swaminathan Sivakumar,Pete Smith,K. Zawadzki,Scott E. Thompson,M. Bohr +19 more
TL;DR: In this article, the authors describe a novel strained transistor architecture which is incorporated into a 90nm logic technology on 300mm wafers, which features an epitaxially grown strained SiGe film embedded in the source drain regions.
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