I. A. Dmitriev, A. D. Mirlin, D. G. Polyakov
Published 2004-03-24, updated 2004-11-08Version 2
We have analyzed the quasiclassical mechanism of magnetooscillations in the ac- and photoconductivity, related to non-Markovian dynamics of disorder-induced electron scattering. While the magnetooscillations in the photoconductivity are found to be weak, the effect manifests itself much more strongly in the ac conductivity, where it may easily dominate over the oscillations due to the Landau quantization. We argue that the damping of the oscillatory photoconductivity provides a reliable method of measuring the homogeneous broadening of Landau levels (single-particle scattering rate) in high-mobility structures.
Comments: Small changes, published version, 10 pages, 3 figures
Journal: Phys. Rev. B 70, 165305 (2004)
Microwave photoconductivity of a 2D electron gas: Mechanisms and their interplay at high radiation power
Theory of the oscillatory photoconductivity of a 2D electron gas
Analysis of homogeneity of 2D electron gas at decreasing of electron density
