Abstract
Abstract It is shown that the carriers shift in the real space undergoing quantum transitions results to the anomalous Hall and Faraday effects, circular photoconductivity and the surface circular photogalvanic effect as well as the average velocity due to spin-orbital scattering asymmetry. The shift in R-space is possible not only for Bloch carriers in crystals but also for the particles described by Dirac equation. The shift contribution to the high frequency conductivity and to the anomalous Faraday effect is large compared with the scattering asymmetry contribution.
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