Abstract
High field quantum magnetotransport theory based on Feynman's Path Integral method has been derived. The first approximation gives implicite relations between applied field and drift velocity of electrons in magnetic field. Calculations for InSb at 77 K explain measured low field longitudinal magnetoresistance, low and high field transversal mobility data and warm electron coefficient for different magnetic field and predict high field longitudinal properties. The validity of our approximation in frame of the general quantum theory of transport phenomena is discussed. Extension of our calculations for intermediate and strong coupling cases, initiated by recent measurements on Silver Halides, is in progress.
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