Title :
High Speed Deep Sub-Micron MOSFET using High Mobility Strained Silicon Channel
Author :
O´Neill, A.G. ; Antoniadis, D.A.
Author_Institution :
Microsystems Technology Laboratories, Massachusetts Institute of Technology, Cambridge, Ma 02139, USA; Department of Electrical and Electronic Engineering, University of Newcastle upon Tyne, England, UK
Abstract :
The purpose of this work is to determine the advantages gained by using high mobility strained silicon in MOSFETs. It is frequently argued that for deep submicron devices the important parameter is velocity saturation rather than mobility. Computer simulation has been used to demonstrate that improvements in the cut-off frequency, ft, of around 50% in n-channel devices can be achieved in 0.1 ¿m MOSFETs by using a strained Si channel grown on a relaxed Si0.7Ge0.3 buffer and separated from the Si/SiO2 interface by a SiGe capping layer. The saturation velocity in both cases is assumed to be the same.
Keywords :
CMOS technology; Computer simulation; Cutoff frequency; Germanium silicon alloys; Heterojunctions; MOSFET circuits; Scattering; Silicon germanium; Solid modeling; Threshold voltage;
Conference_Titel :
Solid State Device Research Conference, 1995. ESSDERC '95. Proceedings of the 25th European
Conference_Location :
The Hague, The Netherlands
