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Frequency stabilization of the zero-phonon line of a quantum dot via phonon-assisted active feedback

We report on the feedback stabilization of the zero-phonon emission frequency of a single InAs quantum dot. The spectral separation of the phonon-assisted component of the resonance fluorescence provides a probe of the detuning between the zero-phonon transition and the resonant driving laser. Using this probe in combination with active feedback, we stabilize the zero-phonon transition frequency against environmental fluctuations. This protocol reduces the zero-phonon fluorescence intensity noise by a factor of 22 by correcting for environmental noise with a bandwidth of 191 Hz, limited by the experimental collection efficiency. The associated sub-Hz fluctuations in the zero-phonon central frequency are reduced by a factor of 7. This technique provides a means of stabilizing the quantum dot emission frequency without requiring access to the zero-phonon emission.

preprint2014arXivOpen access
Jack HansomCarsten H. H. SchulteClemens MatthiesenMegan StanleyMete Atature
cond-mat.mes-hallquant-ph
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Jack HansomCarsten H. H. SchulteClemens MatthiesenMegan StanleyMete Atature

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