Optical detection of single electron spin resonance in a quantum dot

Alexander Holleitner; Antonio Badolato; Benjamin Biedermann; Brian D. Gerardot; Kathrina M. Weiss; Khaled Karrai; Martin Kroner; Pierre M. Petroff; Richard J. Warburton; Stefan Manus

arxiv: 0710.4901 · v1 · submitted 2007-10-25 · ❄️ cond-mat.other

Optical detection of single electron spin resonance in a quantum dot

Martin Kroner , Kathrina M. Weiss , Benjamin Biedermann , Stefan Seidl , Stefan Manus , Alexander Holleitner , Antonio Badolato , Pierre M. Petroff

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Brian D. Gerardot Richard J. Warburton Khaled Karrai

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classification ❄️ cond-mat.other

keywords spinresonancequantumelectronopticalresonantsingleanother

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We demonstrate optically detected spin resonance of a single electron confined to a self-assembled quantum dot. The dot is rendered dark by resonant optical pumping of the spin with a coherent laser. Contrast is restored by applying a radio frequency (rf) magnetic field at the spin resonance. The scheme is sensitive even to rf fields of just a few micro-T. In one case, the spin resonance behaves exactly as a driven 3-level quantum system (a lambda-system) with weak damping. In another, the dot exhibits remarkably strong (67% signal recovery) and narrow (0.34 MHz) spin resonances with fluctuating resonant positions, evidence of unusual dynamic processes of non-Markovian character.

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Optical detection of single electron spin resonance in a quantum dot

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