Microwave design optimization for broadband Josephson parametric amplifiers

ORAL

Abstract

Broadband Josephson parametric amplifiers are crucial components of a scalable superconducting quantum computing architecture. Recently, the bandwidth of a resonator-based Josephson parametric amplifier was significantly enhanced by introducing a controlled reactance in the signal chain. The design was based on a $\lambda$/2 section fabricated on an RF circuit board. We present the design of an on-chip version that will improve robustness and minimize performance variability from one device to another. Further, we will discuss microwave design optimization for flux pumping mechanism to minimize cross-talk between different input-output ports of the device. Finally, we will discuss design goals for further improvement of amplifier performance.

Authors

  • Matthew Reagor

    • Rigetti Quantum Computing
    • Yale University

  • Eyob A. Sete

    • Rigetti Quantum Computing
    • Rigetti Quantum Computing, Berkeley, CA

  • Dane Thompson

    • Rigetti Quantum Computing
    • Rigetti Quantum Computing, Berkeley, CA

  • Arpit Ranadive

    • Tata Institute of Fundamental Research, Mumbai

  • R. Vijay

    • Tata Institute of Fundamental Research, Mumbai 400005, India
    • Tata Institute of Fundamental Research, Mumbai

  • Chad Rigetti

    • Rigetti Quantum Computing
    • Rigetti Quantum Computing, Berkeley, CA