Piezoelectric loss in superconducting quantum circuits: Part 1

ORAL

Abstract

In recent studies, it has been shown that strong coupling between a superconducting qubit and phonons can be achieved. [1,2] These results imply that any unintended electro mechanical coupling in the system could lead to loss in superconducting circuit systems. In my talk, I will present a highly sensitive technique for measuring electromechanical coupling in a material at cryogenic temperatures and in the GHz regime. The measurement is based on RF driving of phonons through electromechanical coupling and optical readout through Brillouin scattering. I will present measurements done on an inversion symmetric material, the progress on relevant materials for superconducting circuits, and discuss its implications for qubit coherence times.
[1] Y. Chu, et al. Science (2018)
[2] K. Satzinger, et al. Science (2018)

*US Army Research Office grant W911NF-18-1-0212, DOE Office of Science grant DE-SC0019406, Max Planck Research Award from the Alexander von Humboldt Foundation, ONR YIP (N00014-17-1-2514), NSF MRSEC (DMR-1119826), AFOSR (FA9550-09-1-0484 and FA9550-15-1-0270), and the Packard Fellowship for Science and Engineering.

Presenters

  • Taekwan Yoon

    • Applied Physics, Yale University
    • Yale Univ

Authors

  • Taekwan Yoon

    • Applied Physics, Yale University
    • Yale Univ

  • Yiwen Chu

    • Yale Univ
    • Yale University

  • Prashanta Kharel

    • Yale Univ

  • Vijay Jain

    • Yale Univ

  • William Renninger

    • University of Rochester

  • Luigi Frunzio

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

  • Peter Rakich

    • Yale Univ

  • Robert J Schoelkopf

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