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Quantum Electromechanics on Silicon Nitride Nanomembranes

We present a platform based upon silicon nitride nanomembranes for integrating superconducting microwave circuits with planar acoustic and optical devices such as phononic and photonic crystals. Utilizing tensile stress and lithographic patterning of a silicon nitride nanomembrane we are able to reliably realize planar capacitors with vacuum gap sizes down to $s \approx 80$nm. In combination with spiral inductor coils of micron pitch, this yields microwave ($\approx 8$GHz) resonant circuits of high impedance ($Z_{0} \approx 3.4$k$Ω$) suitable for efficient electromechanical coupling to nanoscale acoustic structures. We measure an electromechanical vacuum coupling rate of $g_{0}/2π= 41.5$~Hz to the low frequency ($4.48$MHz) global beam motion of a patterned phononic crystal nanobeam, and through parametric microwave driving reach a backaction cooled mechanical mode occupancy as low as $n_{m} = 0.58$.

preprint2015arXivOpen access
Johannes M. FinkMahmoud KalaeeAlessandro PitantiRichard NorteLukas HeinzleMarcelo DavancoKartik SrinivasanOskar Painter
cond-mat.mes-hallquant-ph
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Open access8 authors2 topics
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Johannes M. FinkMahmoud KalaeeAlessandro PitantiRichard NorteLukas HeinzleMarcelo DavancoKartik SrinivasanOskar Painter

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