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Spin Control of Drifting Electrons using Local Nuclear Polarization in Ferromagnet/Semiconductor Heterostructures

We demonstrate methods to locally control the spin rotation of moving electrons in a GaAs channel. The Larmor frequency of optically-injected spins is modulated when the spins are dragged through a region of spin-polarized nuclei created at a MnAs/GaAs interface. The effective field created by the nuclei is controlled either optically or electrically using the ferromagnetic proximity polarization effect. Spin rotation is also tuned by controlling the carrier traverse time through the polarized region. We demonstrate coherent spin rotations exceeding 4 pi radians during transport.

preprint2010arXivOpen access
M. E. NowakowskiG. D. FuchsS. MackN. SamarthD. D. Awschalom
cond-mat.mes-hallcond-mat.mtrl-sci
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Open access5 authors2 topics
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M. E. NowakowskiG. D. FuchsS. MackN. SamarthD. D. Awschalom

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