
Accession Number : AD0630621
Title : QUANTUM THEORY OF DYNAMIC MAGNETORESISTANCE.
Descriptive Note : Technical rept.,
Corporate Author : OREGON UNIV EUGENE DEPT OF PHYSICS
Personal Author(s) : Fujita,Shigeji ; Chen,Charles C.
Report Date : MAR 1966
Pagination or Media Count : 23
Abstract : The connecteddiagram expansion method is applied in the evaluation of the dynamic conductivity of an electronimpurity system subjected to a constant magnetic field B. This method treats the two cases, B does not = 0 and B = 0, on the same footing such that the differences appear at the final stage of calculation. A clear physical picture is sustained throughout because no extraneous arguments about the splitting of a density operator into diagonal and nondiagonal parts in freeelectron states, which appeared in most of the past literatures, are used. A transport equation in the limits of low impurity density n sub s and small coupling lambda is given explicitly. This equation is meant to describe the dynamic conductivity at an arbitrary frequency omega of an applying electric field and at an arbitrary magnitude of B. It reduces to the transport equation of Argyres in the limit of zero frequency and to that of YamadaRon in the limit of zero field. The conductivity in the limits of large omega, large B, small n sub s and small lambda, is calculated explicitly. The limiting forms of the new expressions are in agreement with the result of Titeica (B = 0, omega = 0) and with that of YamadaRon (B = 0, omega does not = 0). The expression explicitly indicates that the dynamical response can be no more interpreted in terms of scattering cross section. The conductivity of an electronphonon system is discussed briefly. (Author)
Descriptors : (*FIELD THEORY, TRANSPORT PROPERTIES), ELECTRICAL RESISTANCE, ELECTRONS, CONDUCTIVITY, DYNAMICS, MAGNETIC FIELDS, INTEGRAL EQUATIONS
Subject Categories : Electricity and Magnetism
Quantum Theory and Relativity
Distribution Statement : APPROVED FOR PUBLIC RELEASE