Title :
Modeling of the Threshold Voltage in Strained Si/Si1 − x Gex/Si1 − yGey(x ≥ y) CMOS Architectures
Author :
Tsang, Y.L. ; Chattopadhyay, Sanatan ; Uppal, Suresh ; Escobedo-Cousin, Enrique ; Ramakrishnan, Hiran K. ; Olsen, Sarah H. ; O´Neill, A.G.
Author_Institution :
Newcastle Univ., Newcastle upon Tyne
Abstract :
In this paper, an analytical model of threshold voltage for globally strained Si/SiGe CMOS devices using a dual channel architecture is proposed. Since band parameters modify , they are calculated and generalized for different Ge contents in a film grown on relaxed virtual substrates . A model for predicting is then developed by considering device geometry and material properties, including band parameters, permittivity, and channel and substrate doping concentrations. lowering due to short-channel effects is included by incorporating a voltage-doping transformation. Accuracy of the model is verified by comparing the model with the results of technology computer-aided design simulations and experiments. The model provides a physical insight for the variation of for both n- and p-MOSFETs in a dual-channel architecture, and it can be generalized to be applicable to single-channel devices as well.
Keywords :
CMOS integrated circuits; Ge-Si alloys; electronic design automation; integrated circuit modelling; silicon; CMOS architectures; Si-SiGe-SiGe - Interface; computer-aided design; device geometry; dual channel architecture; short-channel effect; single-channel device; threshold voltage; voltage-doping transformation; Analytical models; Geometry; Germanium silicon alloys; Predictive models; Semiconductor device modeling; Semiconductor process modeling; Silicon germanium; Solid modeling; Substrates; Threshold voltage; CMOS; MOSFETs; dual channel; strained Si/SiGe; threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.907190
