Direct observation of correlation time of dynamic nuclear polarization in single quantum dots

TL;DR

This study directly measures the correlation time of the coupled electron-nuclear spin system in a single quantum dot, providing insights into spin dynamics relevant for quantum information applications.

Contribution

It presents a novel optical method to directly observe the correlation time of electron-nuclear spins in a single quantum dot, validating a spin dynamics model.

Findings

Measured the correlation time of the coupled spin system.

Determined the electron spin relaxation time.

Validated the spin dynamics model against experimental data.

Abstract

The spin interaction between an electron and nuclei was investigated optically in a single self-assembled InAlAs quantum dot (QD). In spin dynamics, the correlation time of the coupled electron-nuclear spin system and the electron spin relaxation time play a crucial role. We examined on a positively charged exciton in a QD to evaluate these key time constants directly via the temporal evolution measurements of the Overhauser shift and the degree of circular polarization. In addition, the validity of our used spin dynamics model was discussed in the context of the experimentally obtained key parameters.