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VOLUME 60 (1994) | ISSUE 8 | PAGE 578
Quantum oscillations of a new type in two-dimensional electron systems in the vicinity of the percolation threshold
A new type of conductivity quantum oscillations are predicted in two-dimensional electron systems at carrier concentrations close to the zero-magnetic-field percolation metal-insulator transition. The off-diagonal conductivity axy changes nonmonotonically with magnetic field. In particular, these oscillations may be responsible for the reentrant transitions between a quantum-Hall effect state and an insulating state, which were recently observed in several two-dimensional electron systems. Influence of the Zeeman splitting on the oscillations is predicted. © 1994 American Institute of Physics.