Phonon-mediated electron spin phase diffusion in a quantum dot
Abstract
An effective spin relaxation mechanism that leads to electron spin decoherence in a quantum dot is proposed. In contrast to the common calculations of spin-flip transitions between the Kramers doublets, we take into account a process of phonon-mediated fluctuation in the electron spin precession and subsequent spin phase diffusion. Specifically, we consider modulations in the longitudinal g-factor and hyperfine interaction induced by the phonon-assisted transitions between the lowest electronic states. Prominent differences in the temperature and magnetic field dependence between the proposed mechanisms and the spin-flip transitions are expected to facilitate its experimental verification. Numerical estimation demonstrates highly efficient spin relaxation in typical semiconductor quantum dots.
Cite
@article{arxiv.cond-mat/0305005,
title = {Phonon-mediated electron spin phase diffusion in a quantum dot},
author = {Y. G. Semenov and K. W. Kim},
journal= {arXiv preprint arXiv:cond-mat/0305005},
year = {2009}
}
Comments
5 pages, 1 figure