Abstract
We have simulated the piezoresistivity in -type single-crystal bulk silicon based on the first-principles electronic band structure of model structures. Our simple procedure to calculate the piezoresistance coefficients is valid qualitatively and quantitatively for carrier electron transport in the multivalley conduction-band structure of -type bulk silicon; the primitive longitudinal and transverse piezoresistance coefficients originate from the energy gap between the valleys, whereas the shear piezoresistance coefficient arises from a distortion of the band energy surface in the valleys and can be presented clearly as a negative constant. The distinction between the origins of longitudinal, transverse, and shear piezoresistivity can be followed as a dependence on a carrier concentration or temperature.
1 More- Received 11 March 2009
DOI:https://doi.org/10.1103/PhysRevB.80.045205
©2009 American Physical Society