Transition from edge- to bulk-currents in the quantum Hall regime

TL;DR

This paper provides experimental evidence for the transition from edge to bulk current flow in the quantum Hall regime, supporting the screening theory over the traditional Landauer-Büttiker model.

Contribution

It offers direct experimental proof of the edge-to-bulk current transition, validating the screening theory's predictions.

Findings

Transition from edge to bulk current observed as magnetic field increases

Supports the screening theory over the Landauer-Büttiker model

Current flows inside incompressible strips that shift from edges to bulk

Abstract

The integer quantum Hall effect can be observed in a two-dimensional conductor penetrated by a perpendicular magnetic field and with edges connecting the current carrying contacts. Its signature is a state of quantized Hall and simultaneously vanishing longitudinal resistances. A widely accepted model is the Landauer-B\"uttiker picture, which assumes an incompressible, i.e., electrically insulating bulk state surrounded by current carrying one-dimensional edge channels. This single-particle model is challenged by the screening theory. It derives, that electron-electron interaction leads to a fragmentation of the Hall bar into compressible and incompressible strips, where the current flows inside the incompressible strips. Because the latter gradually shift from the sample edges into the bulk as the magnetic field is increased, it suggests a transition from edge- to bulk-current. We present a direct experimental proof of this transition. Our results support the screening theory.