A Variable Coupling Network for Superconducting Qubits

ORAL

Abstract

We use a tunable resonator to vary the coupling between two fixed-frequency transmon qubits (4.6 and 5.0 GHz) mounted in a single 3-D superconducting cavity. The effective qubit-qubit coupling is provided by a thin-film lumped element resonator containing two single-junction SQUID loops, which is fabricated on the same chip as the qubits. An external flux, applied to the loops by an inductive drive coil, modulates the resonance frequency of the coupling circuit by nearly 1 GHz. The resonator capacitively couples to each transmon with a strength g ~ 50 MHz. When the resonator frequency is tuned from 4.6 to 4.2 GHz, the qubit-qubit coupling decreases by an order of magnitude, providing an effective switch between the devices.

*This work was supported by the Center for Nanophysics and Advanced Materials, the Joint Quantum Institute, and the Laboratory for Physical Sciences.

Presenters

  • Sudeep Dutta

    • Physics, Univ of Maryland-College Park
    • Univ of Maryland-College Park

Authors

  • Sudeep Dutta

    • Physics, Univ of Maryland-College Park
    • Univ of Maryland-College Park

  • Cody Ballard

    • Physics, Univ of Maryland-College Park
    • Univ of Maryland-College Park

  • James Carbin

    • Univ of Maryland-College Park

  • Valerie Yoshioka

    • Univ of Maryland-College Park

  • Kristen Voigt

    • Univ of Maryland-College Park

  • Christopher Lobb

    • Physics, University of Maryland
    • Univ of Maryland-College Park

  • Frederick Wellstood

    • Physics, Univ of Maryland-College Park
    • Department of Physics, Univ of Maryland-College Park
    • University of Maryland
    • Univ of Maryland-College Park