Spin dynamics in semiconductor nanostructures

M. W. Wu; M. Q. Weng; and J. L. Cheng

arXiv:cond-mat/0611649·cond-mat.mtrl-sci·June 13, 2007

Spin dynamics in semiconductor nanostructures

M. W. Wu, M. Q. Weng, and J. L. Cheng

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TL;DR

This paper reviews theoretical research on how electron spins relax and dephase in semiconductor nanostructures, focusing on spin precession and transport using the kinetic spin Bloch equation method.

Contribution

It introduces a comprehensive theoretical framework for understanding spin dynamics in semiconductor nanostructures through the kinetic spin Bloch equations.

Findings

01

Insights into spin relaxation mechanisms

02

Modeling of spin transport phenomena

03

Predictions of spin lifetime behaviors

Abstract

We review our theoretical investigation on the spin relaxation/dephasing in spin precession and spin diffusion/transport in semiconductor nanostructures based on the kinetic spin Bloch equation approach.

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Taxonomy

TopicsQuantum and electron transport phenomena · Magnetic properties of thin films · Semiconductor Quantum Structures and Devices