Longitudinal magnetoresistance of uniaxially deformed n-type silicon
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Karagandy University of the name of acad. E.A. Buketov
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 electrons, as a result of
which negative magnetoresistance disappears with an increase in uniaxial pressure. When cubic symmetry is
violated, anisotropic phenomena occur in such crystals. The multipath of the isoenergetic surface of the bottom
of the silicon conduction band causes anisotropies of the effective mass and relaxation time, which are
associated with the features of the transfer phenomenon. In particular, magnetoresistance (piezoresistance),
which is the most sensitive to the anisotropy of the iso energy surface. The influence of the latter on
magnetoresistance is most clearly revealed in the region of strong magnetic fields, where the
magnetoresistance is saturated since the longitudinal magnetoresistance is entirely due to the anisotropy of
electron mobility.
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Longitudinal magnetoresistance of uniaxially deformed n-type silicon/Bigozha O.D. [et al.]//Bulletin of the Karaganda University.“Physics” Series. – 2022-№ 2(106). – pp.111-116.