Effect of spin-orbit interaction on circular current: Pure spin current phenomena within a ring conductor

TL;DR

This paper investigates how Rashba spin-orbit interaction influences circular charge and spin currents in quantum rings, revealing methods to generate and control pure spin currents for spintronic applications.

Contribution

It demonstrates the control of pure spin and charge circular currents in quantum rings through Rashba spin-orbit interaction and ring-lead configurations, offering new insights for spintronics.

Findings

Pure charge current at symmetric connections and non-zero Fermi-energy.

Pure charge current at asymmetric connections and zero Fermi-energy.

External tuning of RSOI controls pure spin current.

Abstract

A net circulating current may appear within a quantum ring under finite bias. We study the characteristic features of the circular current in the presence of Rashba spin-orbit interaction (RSOI). Both charge and spin currents appear within the ring. Whereas when the ring is symmetrically connected to the external leads, we can get a pure charge current at non-zero Fermi-energy. On the other hand, for asymmetric ring-to-leads configuration, at zero Fermi-energy, the spin current vanishes but a pure charge current flows within the ring. Tuning RSOI, we demonstrate a way to control the pure spin current externally. This new perspective of the generation of the pure spin circular current can open a new basis for the highly efficient, low energy cost spintronic devices.