Abstract
Optical pump-probe measurements of spin dynamics at temperatures down to are described for a series of (001)-oriented quantum well samples containing high mobility two-dimensional electron gases (2DEGs). For well widths ranging from and 2DEG sheet densities from , the evolution of a small injected spin population is found to be a damped oscillation rather than an exponential relaxation, consistent with the quasi-collision-free regime of the Dyakonov-Perel spin dynamics. A Monte Carlo simulation method is used to extract the spin-orbit-induced electron spin precession frequency and electron momentum scattering time at the Fermi wave vector. The spin decay time passes through a minimum at a temperature corresponding to the transition from collision-free to collision-dominated regimes and is found to be close to the ensemble momentum scattering time obtained from Hall measurements of electron mobility. The values of give the Dresselhaus or bulk inversion asymmetry (BIA) coefficient of spin-orbit interaction as a function of electron confinement energy in the quantum wells and show, qualitatively, the behavior expected from theory.
- Received 24 July 2007
DOI:https://doi.org/10.1103/PhysRevB.76.195305
©2007 American Physical Society