Spin-selective AC Stark shifts in a charged quantum dot

Allan S. Bracker; Cole E. Maurer; Collin J. Flood; Dan Gammon; Dillion J. Cottrill; Edward B. Flagg; Joshua M. Cramlet; Michael Yakes; Tristan A. Wilkinson

arxiv: 1812.02151 · v2 · pith:AGTNW4KRnew · submitted 2018-12-05 · 🪐 quant-ph · cond-mat.mes-hall

Spin-selective AC Stark shifts in a charged quantum dot

Tristan A. Wilkinson , Dillion J. Cottrill , Joshua M. Cramlet , Cole E. Maurer , Collin J. Flood , Allan S. Bracker , Michael Yakes , Dan Gammon

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Edward B. Flagg

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classification 🪐 quant-ph cond-mat.mes-hall

keywords quantumchargedenergylaserpolarizationshiftspin-selectivestark

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A strong, far-detuned laser can shift the energy levels of an optically active quantum system via the AC Stark effect. We demonstrate that the polarization of the laser results in a spin-selective modification to the energy structure of a charged quantum dot, shifting one spin manifold but not the other. An additional shift occurs due to the Overhauser field of the nuclear spins, which are pumped into a partially polarized state. This mechanism offers a potentially rapid, reversible, and coherent control of the energy structure and polarization selection rules of a charged quantum dot.

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Spin-selective AC Stark shifts in a charged quantum dot

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