Title :
Piezoresistance Coefficients of (100) Silicon nMOSFETs Measured at Low and High ( ∼ 1.5 GPa) Channel Stress
Author :
Suthram, S. ; Ziegert, J.C. ; Nishida, T. ; Thompson, S.E.
Author_Institution :
Florida Univ., Gainesville, FL
Abstract :
A flexure-based four-point mechanical wafer bending setup is used to apply large uniaxial tensile stress (up to 1.2 GPa) on industrial nMOSFETs with 0 to ~700 MPa of process-induced stress. This provides the highest uniaxial channel stress to date at ~1.5 GPa. The stress altered drain-current is measured for long and short (50-140 nm) devices and the extracted pi-coefficients are observed to be approximately constant for stresses up to ~1.5 GPa. For short devices, this trend is seen only after correcting for the significant degradation in the pi-coefficients observed due to parasitic source/drain series resistances (Rsd/)
Keywords :
MOSFET; elemental semiconductors; piezoresistance; silicon; tensile strength; channel stress; flexure-based four-point mechanical wafer bending; piezoresistance coefficients; silicon nMOSFET; uniaxial tensile stress; Calibration; Degradation; MOSFETs; Mechanical variables measurement; Piezoresistance; Piezoresistive devices; Predictive models; Silicon; Stress measurement; Tensile stress; Piezoresistance; strained-silicon; uniaxial; wafer bending;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2006.887939
