Stimulated Raman spin coherence and spin-flip induced hole burning in charged GaAs quantum dots

Ann Arbor; A. S. Bracker (2); CA); D. Gammon (2); D. G. Steel (1); Jun Cheng (1); La Jolla; L. J. Sham (3) ((1) The H. M. Randall Laboratory of Physics; MI (2) The Naval Research Laboratory; The University of California-San Diego

arxiv: 0707.1726 · v2 · submitted 2007-07-12 · ❄️ cond-mat.mes-hall

Stimulated Raman spin coherence and spin-flip induced hole burning in charged GaAs quantum dots

Jun Cheng (1) , Wang Yao (3) , Xiaodong Xu (1) , D. G. Steel (1) , A. S. Bracker (2) , D. Gammon (2) , L. J. Sham (3) ((1) The H. M. Randall Laboratory of Physics , The University of Michigan

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Ann Arbor MI (2) The Naval Research Laboratory Washington D. C. (3) Department of Physics The University of California-San Diego La Jolla CA)

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keywords spinchargeddotsdynamicsholespectralburningcoherence

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High-resolution spectral hole burning (SHB) in coherent nondegenerate differential transmission spectroscopy discloses spin-trion dynamics in an ensemble of negatively charged quantum dots. In the Voigt geometry, stimulated Raman spin coherence gives rise to Stokes and anti-Stokes sidebands on top of the trion spectral hole. The prominent feature of an extremely narrow spike at zero detuning arises from spin population pulsation dynamics. These SHB features confirm coherent electron spin dynamics in charged dots, and the linewidths reveal spin spectral diffusion processes.

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Stimulated Raman spin coherence and spin-flip induced hole burning in charged GaAs quantum dots

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