Nature Communications (Oct 2023)

Fast generation of Schrödinger cat states using a Kerr-tunable superconducting resonator

  • X. L. He,
  • Yong Lu,
  • D. Q. Bao,
  • Hang Xue,
  • W. B. Jiang,
  • Z. Wang,
  • A. F. Roudsari,
  • Per Delsing,
  • J. S. Tsai,
  • Z. R. Lin

DOI
https://doi.org/10.1038/s41467-023-42057-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Schrödinger cat states, quantum superpositions of macroscopically distinct classical states, are an important resource for quantum communication, quantum metrology and quantum computation. Especially, cat states in a phase space protected against phase-flip errors can be used as a logical qubit. However, cat states, normally generated in three-dimensional cavities and/or strong multi-photon drives, are facing the challenges of scalability and controllability. Here, we present a strategy to generate and preserve cat states in a coplanar superconducting circuit by the fast modulation of Kerr nonlinearity. At the Kerr-free work point, our cat states are passively preserved due to the vanishing Kerr effect. We are able to prepare a 2-component cat state in our chip-based device with a fidelity reaching 89.1% under a 96 ns gate time. Our scheme shows an excellent route to constructing a chip-based bosonic quantum processor.