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We present experiments in which self-assembled InAs quantum dots are coupled to a thin, suspended-beam GaAs resonator. The quantum dots are driven resonantly and the resonance fluorescence is detected. The narrow quantum dot linewidths, just a factor of 3 larger than the transform limit, result in a high sensitivity to the mechanical motion. We show that one quantum dot couples to eight mechanical modes spanning a frequency range from 30 to 600 MHz: one quantum dot provides an extensive characterization of the mechanical resonator. The coupling spans the unresolved-sideband to the resolved-sideband regimes. Finally, we present the first detection of thermally driven phonon sidebands (at 4.2 K) in the resonance-fluoresence spectrum. Published by the American Physical Society 2024
Spinnler et al. (Thu,) studied this question.
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