Longitudinal magnetoresistance of uniaxially deformed n-type silicon

Abstract: The study of Galvano-magnetic effects (as well as tensoeffects) in silicon under extreme conditions allows not only to identify the mechanisms of these effects but also to identify the possibility of creating gaussmeters, infrared detectors, sensitive strain gauges, amplifiers and generators of a wide frequency range. The reliability of the mechanism of negative magnetoresistance was verified using uniaxial elastic deformation of the studied crystals. Uniaxial deformation excludes interline transitions of elec… Show more

“…The increase in the magnetoresistance of silicon with uniaxial pressure is explained as follows.The saturation of the longitudinal piezoelectric resistance of n-type silicon in the case of X is determined by the formula derived by one of the authors [5][6][7]:…”

Longitudinal magnetoresistance of uniaxially deformed n-type silicon

“…The increase in the magnetoresistance of silicon with uniaxial pressure is explained as follows.The saturation of the longitudinal piezoelectric resistance of n-type silicon in the case of X is determined by the formula derived by one of the authors [5][6][7]:…”

Longitudinal magnetoresistance of uniaxially deformed n-type silicon