Quantum Simulations of Superconducting Flux Circuits

ORAL

Abstract

One of the main avenues being explored as of late to obtain quantum speedups by annealing is that of quantum simulations, wherein one performs measurements mid-anneal. To that aim, there is a tremendous ongoing effort to fabricate superconducting flux circuits which are non-stoquastic in their qubit representation. Because of this these circuits are thought to be “unsimulatable” by classical approaches such as quantum Monte Carlo; however, we present the results of a study which aims to simulate the circuit Hamiltonian directly by utilizing an infinite Hilbert representation that is, in fact, stoquastic. Our approach obviates the reduction to a qubit representation and produces results that we feel are more in spirit with the experiential setup.

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The research is based upon work (partially) supported by the Office of the Director of National Intelligence (ODNI), Intelligence Advanced Research Projects Activity (IARPA), via the U.S. Army Research Office contract W911NF-17-C-0050. This material is based on research sponsored by the Air Force Research laboratory under agreement number FA8750-18-1-0044.

Presenters

  • Thomas Halverson

    • Information Sciences Institute, University of Southern California

Authors

  • Thomas Halverson

    • Information Sciences Institute, University of Southern California

  • Lalit Gupta

    • Department of Physics, University of Southern California
    • Univ of Southern California

  • Moshe Goldstein

    • Tel Aviv University
    • School of Physics and Astronomy, Tel Aviv University
    • Raymond and Beverly Sackler School of Physics and Astronomy, Tel Aviv University

  • Itay Hen

    • Information Sciences Institute, University of Southern California
    • Univ of Southern California