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Paper detail

Direct Measurement of Quantum Dot Spin Dynamics using Time-Resolved Resonance Fluorescence

We temporally resolve the resonance fluorescence from an electron spin confined to a single self-assembled quantum dot to measure directly the spin's optical initialization and natural relaxation timescales. Our measurements demonstrate that spin initialization occurs on the order of microseconds in the Faraday configuration when a laser resonantly drives the quantum dot transition. We show that the mechanism mediating the optically induced spin-flip changes from electron-nuclei interaction to hole-mixing interaction at 0.6 Tesla external magnetic field. Spin relaxation measurements result in times on the order of milliseconds and suggest that a $B^{-5}$ magnetic field dependence, due to spin-orbit coupling, is sustained all the way down to 2.2 Tesla.

preprint2009arXivOpen access
C. -Y. LuY. ZhaoA. N. VamivakasC. MatthiesenS. FältA. BadolatoM. Atatüre
cond-mat.mes-hallquant-ph
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C. -Y. LuY. ZhaoA. N. VamivakasC. MatthiesenS. FältA. BadolatoM. Atatüre

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