Single-shot Readout of a Superconducting Qubit using a Josephson Parametric Oscillator

  1. Philip Krantz,
  2. Andreas Bengtsson,
  3. Michaël Simoen,
  4. Simon Gustavsson,
  5. Vitaly Shumeiko,
  6. W. D. Oliver,
  7. C. M. Wilson,
  8. Per Delsing,
  9. and Jonas Bylander
We present a new read-out technique for a superconducting qubit dispersively coupled to a Josephson parametric oscillator. We perform degenerate parametric flux pumping of the Josephson inductance with a pump amplitude surpassing the threshold for parametric instability. We map the qubit states onto two distinct states of classical parametric oscillations: one oscillating state, with on average 180 photons in the resonator, and one with zero oscillation amplitude. We demonstrate single-shot readout performance, with a total state discrimination of 81.5%. When accounting for qubit errors, this gives a corrected fidelity of 98.7%, obviating the need for a following quantum-limited amplifier. An error budget indicates that the readout fidelity is currently limited by spurious switching events between two bistable states of the resonator.
arxiv pdf

leave comment