Article,
Quantum dot coupled to a suspended-beam mechanical resonator: From the unresolved- to the resolved-sideband regime
Contributors
Spinnler, Clemens
0000-0003-4164-0840
[1]
Nguyen, Giang N
0000-0002-1628-4402
[1]
Wang, Ying
0000-0002-6027-0841
[2]
Erbe, Marcel
0009-0000-6113-8482
[1]
Javadi, Alisa
0000-0002-8833-0738
[1]
Zhai, Liang
0000-0002-0700-7569
[1]
Scholz, Sven E
0000-0002-4057-8830
[3]
Wieck, Andreas D Wieck Andreas D
0000-0001-9776-2922
[3]
Ludwig, Arne
0000-0002-2871-7789
[3]
Lodahl, Peter
0000-0002-9348-9591
[2]
Midolo, Leonardo
0000-0003-0237-587X
[2]
Warburton, Richard John
0000-0002-3095-3596
[1]
Affiliations
- [1] University of Basel [NORA names: Switzerland; Europe, Non-EU; OECD];
- [2] University of Copenhagen [NORA names: KU University of Copenhagen; University; Denmark; Europe, EU; Nordic; OECD];
- [3] Ruhr University Bochum [NORA names: Germany; Europe, EU; OECD]
Abstract
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
