Spin injection into a ballistic semiconductor microstructure
A theory of spin injection across a ballistic ferromagnet-semiconductor-ferromagnet junction is developed for the Boltzmann regime. Spin injection coefficient $\gamma$ is suppressed by the Sharvin resistance of the semiconductor $r_N^*=(h/e^2)(\pi^2/S_N)$, where $S_N$ is the Fermi-surface cross-sect...
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| Zusammenfassung: | A theory of spin injection across a ballistic
ferromagnet-semiconductor-ferromagnet junction is developed for the Boltzmann
regime. Spin injection coefficient $\gamma$ is suppressed by the Sharvin
resistance of the semiconductor $r_N^*=(h/e^2)(\pi^2/S_N)$, where $S_N$ is the
Fermi-surface cross-section. It competes with the diffusion resistances of the
ferromagnets $r_F$, and $\gamma\sim r_F/r_N^*\ll 1$ in the absence of contact
barriers. Efficient spin injection can be ensured by contact barriers. Explicit
formulae for the junction resistance and the spin-valve effect are presented. |
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| DOI: | 10.48550/arxiv.cond-mat/0209539 |