A New Technique to Measure Microwave Dielectric Material Loss

ORAL

Abstract

Qubit coherence time is essential in quantum computation, since, in tandem with gate speed, it governs the number of coherent operations one can eventually perform on a quantum computer. In the field of circuit quantum electrodynamics, a qubit is often formed by the non-linearity of a Josephson junction fabricated on a dielectric substrate. Therefore, any dielectric loss in the substrate can be an important contribution to qubit coherence. Indeed, recent studies suggest that among different qubit loss channels dielectric loss may be a substantial one. In this talk, we describe a sensitive method to selectively measure microwave dielectric substrate loss and present preliminary measurements with the technique.

*This research is supported by US Army Research Office grant W911NF-18-1-0212 and W911NF-16-1-0349, and
Air Force Office of Scientific Research grant FA9550-15-1-0015.

Presenters

  • Kaicheng Li

    • Yale Univ

Authors

  • Kaicheng Li

    • Yale Univ

  • Christopher J Axline

    • Yale Univ
    • Yale Univ, ETH Zurich
    • Yale University & ETH
    • ETH Zurich

  • Luke Burkhart

    • Yale Univ
    • Yale University

  • Benjamin Chapman

    • Yale Univ
    • Applied Physics, Yale University

  • Chan U Lei

    • Yale Univ
    • Yale University

  • Vijay Jain

    • Yale Univ

  • Lev Krayzman

    • Yale Univ
    • Yale University

  • Philip Reinhold

    • Yale Univ
    • Department of Applied Physics and Physics, Yale University
    • Applied Physics, Yale University

  • Luigi Frunzio

    • Applied Physics, Yale University
    • Yale Univ
    • Yale University

  • Robert J Schoelkopf

    • Yale Univ
    • Yale University
    • Department of Applied Physics and Physics, Yale University
    • Applied Physics, Yale University