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Paper detail

Full coherent control of nuclear spins in an optically pumped single quantum dot

Highly polarized nuclear spins within a semiconductor quantum dot (QD) induce effective magnetic (Overhauser) fields of up to several Tesla acting on the electron spin or up to a few hundred mT for the hole spin. Recently this has been recognized as a resource for intrinsic control of QD-based spin quantum bits. However, only static long-lived Overhauser fields could be used. Here we demonstrate fast redirection on the microsecond time-scale of Overhauser fields of the order of 0.5 T experienced by a single electron spin in an optically pumped GaAs quantum dot. This has been achieved using full coherent control of an ensemble of 10^3-10^4 optically polarized nuclear spins by sequences of short radio-frequency (rf) pulses. These results open the way to a new class of experiments using rf techniques to achieve highly-correlated nuclear spins in quantum dots, such as adiabatic demagnetization in the rotating frame leading to sub-micro K nuclear spin temperatures, rapid adiabatic passage, and spin squeezing.

preprint2011arXivOpen access
M. N. MakhoninK. V. KavokinP. SenellartA. Lema^itreA. J. RamsayM. S. SkolnickA. I. Tartakovskii
cond-mat.mes-hallcond-mat.mtrl-sci
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M. N. MakhoninK. V. KavokinP. SenellartA. Lema^itreA. J. RamsayM. S. SkolnickA. I. Tartakovskii

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