D. Boese, M. Lischka, L. E. Reichl
Published 2000-09-25Version 1
We study the conductance properties of a straight two-dimensional quantum wire with impurities modeled by $s$-like scatterers. Their presence can lead to strong inter-channel coupling. It was shown that such systems depend sensitively on the number of transverse modes included. Based on a poor man's scaling technique we include the effect of higher modes in a renormalized coupling constant. We therefore show that the low-energy behavior of the wire is dominated by only a few modes, which hence is a way to reduce the necessary computing power. The technique is successfully applied to the case of one and two $s$-like scatterers.
Comments: 7 pages, 7 figures included; to be published in Phys. Rev. B
Journal: Phys. Rev. B 62, 16933 (2000).
Scaling Behavior and Universality near the Quantum Hall Transition
A Scaling Behavior of Bloch Oscillation in Weyl Semimetals
Observation of the quantum-anomalous-Hall insulator to Anderson insulator quantum phase transition and its scaling behavior
