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• W2025540168 endingPage "2459" @default.
• W2025540168 startingPage "2447" @default.
• W2025540168 abstract "Rate equations are derived, in the linear approximation with respect to the electric field, for hopping transport in disordered systems in the presence of a magnetic field H. The resulting system of linear equations is in general not equivalent to a random resistor network. By means of an effective-medium approximation, an analytical expression for the magnetoresistance ensuremath{Delta}ensuremath{sigma}(H) has been obtained for R hopping. In the case of strong coupling with phonons, ensuremath{Delta}ensuremath{sigma}(H) is independent of the temperature T and it is proportional to ${mathit{H}}^{2}$ in the region of weak magnetic fields. For weak coupling with phonons, we find that ensuremath{Delta}ensuremath{sigma}(H)ensuremath{sim}${mathit{H}}^{2}$/T. $DELTA sigma (H)--- shows a monotonic behavior in a wide range of magnitude of the magnetic field. It does not exhibit an oscillating contribution. The sign of ensuremath{Delta}ensuremath{sigma}(H) depends on the character of the conductivity (electronlike or holelike). ensuremath{Delta}ensuremath{sigma}(H) approaches zero at some point if one varies the chemical potential." @default.
• W2025540168 created "2016-06-24" @default.
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• W2025540168 date "1994-01-15" @default.
• W2025540168 modified "2023-09-27" @default.
• W2025540168 title "Hopping conduction in disordered systems in the presence of a magnetic field: Linearized rate equation and magnetoresistance" @default.
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• W2025540168 doi "https://doi.org/10.1103/physrevb.49.2447" @default.
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