PRX Quantum (Dec 2023)

Strong Dispersive Coupling Between a Mechanical Resonator and a Fluxonium Superconducting Qubit

  • Nathan R.A. Lee,
  • Yudan Guo,
  • Agnetta Y. Cleland,
  • E. Alex Wollack,
  • Rachel G. Gruenke,
  • Takuma Makihara,
  • Zhaoyou Wang,
  • Taha Rajabzadeh,
  • Wentao Jiang,
  • Felix M. Mayor,
  • Patricio Arrangoiz-Arriola,
  • Christopher J. Sarabalis,
  • Amir H. Safavi-Naeini

DOI
https://doi.org/10.1103/PRXQuantum.4.040342
Journal volume & issue
Vol. 4, no. 4
p. 040342

Abstract

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We demonstrate strong dispersive coupling between a fluxonium superconducting qubit and a 690 megahertz mechanical oscillator, extending the reach of circuit quantum acousto-dynamics (cQAD) experiments into a new range of frequencies. We have engineered a qubit-phonon coupling rate of g≈2π×14MHz, and achieved a dispersive interaction that exceeds the decoherence rates of both systems while the qubit and mechanics are highly nonresonant (Δ/g≳10). Leveraging this strong coupling, we perform phonon-number-resolved measurements of the mechanical resonator and investigate its dissipation and dephasing properties. Our results demonstrate the potential for fluxonium-based hybrid quantum systems, and a path for developing new quantum sensing and information processing schemes with phonons at frequencies below 700 MHz to significantly expand the toolbox of cQAD.