Bias-dependent electron spin lifetimes in n-GaAs and the role of donor impact ionization
arXiv:cond-mat/0605742 · doi:10.1063/1.2345608
Abstract
In bulk n-GaAs epilayers doped near the metal-insulator transition, we study the evolution of electron spin lifetime $Ï_s$ as a function of applied lateral electrical bias $E_x$. $Ï_s$ is measured via the Hanle effect using magneto-optical Kerr rotation. At low temperatures (T<10 K, where electrons are partially localized and $Ï_s > 100$ ns at zero bias), a marked collapse of $Ï_s$ is observed when $E_x$ exceeds the donor impact ionization threshold at $\sim$10 V/cm. A steep increase in the concentration of warm delocalized electrons -- subject to Dyakonov-Perel spin relaxation -- accounts for the rapid collapse of $Ï_s$, and strongly influences electron spin transport in this regime.
4 pages, 3 figures