Current density distribution for the quantum Hall effect

TL;DR

This paper qualitatively analyzes current density distribution in the quantum Hall effect, revealing how persistent currents and Hall voltage influence edge current flow directions.

Contribution

It introduces a new analysis including a closed loop persistent current and its dependence on Hall voltage, advancing understanding of current flow in quantum Hall systems.

Findings

Persistent current density decreases with increasing Hall voltage.

Current flows in opposite directions along opposite edges of the Hall bar.

Imposed current flows unidirectionally on the higher potential edge.

Abstract

Our microscopic understanding of the integer quantum Hall effect is still incomplete. For decades, there has been a controversial discussion about "where the current flows" if the Hall resistance is quantized. Here, we qualitatively analyze the current density distribution in a Hall bar based on the screening properties of a two-dimensional electron system in the quantum Hall regime. Beyond previous publications, we include a closed loop persistent current that exists inside a Hall bar if the Hall resistance is quantized. We find, that the persistent current density decreases with increasing Hall voltage. Accounting for this dependence, we find, that the current flows in the opposite directions along opposite edges of the Hall bar, while the imposed current flows unidirectionally and only on the side of the Hall bar connected with its higher electrical potential edge.