Multilayer Microwave Integrated Quantum Circuits: Part 1

ORAL

Abstract

Superconducting quantum circuits provide a promising platform for quantum information processing. Resonant modes found in superconducting enclosures can be engineered to offer superior coherence and a better electromagnetic environment than their planar analogues. Here, we will discuss the Multilayer Microwave Integrated Quantum Circuit (MMIQC). This platform combines the high coherence of 3D superconducting enclosures with the lithographic precision and versatility of existing MMIC (Monolithic Microwave Integrated Circuit) technology to realize quantum modules that are both scalable and highly coherent. In this talk, we will present an overview of the MMIQC architecture and the ability to realize modular quantum networks.

*This research was supported by U.S. Army Research Office Grant No. W911NF-18-1-0212. S.G. was supported by a Max Planck Research Award from the Alexander von Humboldt Foundation. Facility use was supported by the Yale University cleanroom and YINQE.

Presenters

  • Chan U Lei

    • Yale University
    • Applied Physics, Yale University

Authors

  • Chan U Lei

    • Yale University
    • Applied Physics, Yale University

  • Lev Krayzman

    • Yale University
    • Applied Physics, Yale University

  • Suhas Ganjam

    • Yale University
    • Applied Physics, Yale University

  • Luigi Frunzio

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

  • Robert J Schoelkopf

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