Abstract
We propose a nanodevice for single-electron spin initialization. It is based on a gated planar semiconductor heterostructure with a quantum well and with potentials generated by voltages applied to local gates. Initially we insert an electron with arbitrary spin into the nanodevice. Next we perform a sequence of spin manipulations, after which the spin is set in a desired direction (e.g., the growth direction). The operations are done all-electrically, do not require any external fields and do not depend on the initial spin direction.
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CITATION STYLE
Bednarek, S., Pawłowski, J., Górski, M., & Skowron, G. (2017). All-electric single electron spin initialization. New Journal of Physics, 19(12). https://doi.org/10.1088/1367-2630/aa9368
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