Landau-level mixing, floating-up extended states, and scaling behavior in a GaAs-based two-dimensional electron system containing self-assembled InAs dots
Journal
Semiconductor Science and Technology
Journal Volume
32
Journal Issue
8
Date Issued
2017
Author(s)
Abstract
Temperature-driven flow lines are studied in the conductivity plane in a GaAs-based two-dimensional electron system containing self-assembled InAs dots when Landau level filling factor ν = 2-4. In the insulator-quantum Hall (I-QH) transition resulting from the floating-up of the extended states, the flow diagram shows the critical behavior and we observed the expected semicircle in the strongest disorder case. By decreasing the effective disorder, we find that such flow lines can leave the I-QH regime and correspond to the plateau-plateau transition between ν = 4 and 2. The evolution of the conductivity curve at low magnetic fields demonstrates the importance of Landau-level mixing to the semicircle when the extended states float up. © 2017 IOP Publishing Ltd.
Subjects
floating-up; insulating state; semicircle
Other Subjects
Curve fitting; Gallium arsenide; Mixing; Semiconducting gallium; Critical behavior; floating-up; Insulating state; Landau level filling factors; Low magnetic fields; Scaling behavior; semicircle; Two-dimensional electron system; Quantum theory
Type
journal article